Chapter 2 Review Questions

Question 1

1.Which of the following are valid Java identifiers? (Choose all that apply.)
A. _
B. _helloWorld$
C. true
D. java.lang
E. Public
F. 1980_s
G. _Q2_

Answer 1

B, E, G.

• Option A is invalid because a single underscore is no longer allowed as an identifier as of Java 9.
• Option B is valid because you can use an underscore within identifiers, and a dollar sign ($) is also a valid character.
• Option C is not a valid identifier because true is a Java reserved word.
• Option D is not valid because a period (.) is not allowed in identifiers.
• Option E is valid because Java is case sensitive. Since Public is not a reserved word, it is allowed as an identifier, whereas public would not be allowed.
• Option F is not valid because the first character is not a letter, dollar sign ($), or underscore (_).
• Finally, option G is valid as identifiers can contain underscores (_) and numbers, provided the number does not start the identifier.

Question 2

2, What lines are printed by the following program? (Choose all that apply.)

1: public class WaterBottle {
2:     private String brand;
3:     private boolean empty;
4:     public static float code;
5:     public static void main(String[] args) {
6:         WaterBottle wb = new WaterBottle();
7:         System.out.println("Empty = " + wb.empty);
8:         System.out.println("Brand = " + wb.brand);
9:         System.out.println("Code = " + code);
10: } }

A. Line 8 generates a compiler error.
B. Line 9 generates a compiler error.
C. Empty =
D. Empty = false
E. Brand =
F. Brand = null
G. Code = 0.0
H. Code = 0f

Answer 2

D, F, G
D, F, G. The code compiles and runs without issue, so options A and B are incorrect. A boolean field initializes to false, making option D correct with Empty = false being printed. Object references initialize to null, not the empty String, so option F is correct with Brand = null being printed. Finally, the default value of floating-point numbers is 0.0. Although float values can be declared with an f suffix, they are not printed with an f suffix. For these reasons, option G is correct and Code = 0.0 is printed.

Question 3

3. Which of the following code snippets about var compile without issue when used in a method? (Choose all that apply.)

A. var spring = null;
B. var fall = “leaves”;
C. var evening = 2; evening = null;
D. var night = new Object();
E. var day = 1/0;
F. var winter = 12, cold;
G. var fall = 2, autumn = 2;
H. var morning = “”; morning = null;

Answer 3

B, D, E, H.

• A var cannot be initialized with a null value without a type, but it can be assigned a null value if the underlying type is not a primitive. For these reasons, option H is correct, but options A and C are incorrect.
• Options B and D are correct as the underlying types are String and Object, respectively.
• Option E is correct, as this is a valid numeric expression. You might know that dividing by zero produces a runtime exception, but the question was only about whether the code compiled.
• Finally, options F and G are incorrect as var cannot be used in a multiple-variable assignment.

Question 4

4. Which of the following statements about the code snippet are true?
(Choose all that apply.)

4: short numPets = 5L;
5: int numGrains = 2.0;
6: String name = "Scruffy";
7: int d = numPets.length();
8: int e = numGrains.length;
9: int f = name.length();

A. Line 4 generates a compiler error.
B. Line 5 generates a compiler error.
C. Line 6 generates a compiler error.
D. Line 7 generates a compiler error.
E. Line 8 generates a compiler error.
F.Line 9 generates a compiler error.

Answer 4

A, B, D, E.

Line 4 does not compile because the L suffix makes the literal value a long, which cannot be stored inside a short directly, making option A correct. Line 5 does not compile because int is an integral type, but 2.0 is a double literal value, making option B correct. Line 6 compiles without issue. Lines 7 and 8 do not compile because numPets and numGrains are both primitives, and you can call methods only on reference types, not primitive values, making options D and E correct, respectively. Finally, line 9 compiles because there is a length() method defined on String.

Question 5

5. Which statements about the following class are true? (Choose all that apply.)

1: public class River {
2:     int Depth = 1;
3:     float temp = 50.0;
4:     public void flow() {
5:         for (int i = 0; i < 1; i++) {
6:             int depth = 2;
7:             depth++;
8:             temp--;
9:         }
10:        System.out.println(depth);
11:        System.out.println(temp); }
12:     public static void main(String... s) {
13:         new River().flow();
14:     } }

A. Line 3 generates a compiler error.
B. Line 6 generates a compiler error.
C. Line 7 generates a compiler error.
D. Line 10 generates a compiler error.
E. The program prints 3 on line 10.
F. The program prints 4 on line 10.
G. The program prints 50.0 on line 11.
H. The program prints 49.0 on line 11.

Answer 5

A, D.

• The class does not compile, so options E, F, G, and H are incorrect. You might notice things like loops and increment/decrement operators in this problem, which we will cover in the next two chapters, but understanding them is not required to answer this question.
• The first compiler error is on line 3. The variable temp is declared as a float, but the assigned value is 50.0, which is a double without the F/f postfix. Since a double doesn’t fit inside a float, line 3 does not compile.
• Next, depth is declared inside the for loop and only has scope inside this loop. Therefore, reading the value on line 10 triggers a compiler error. Note that the variable Depth on line 2 is never used. Java is case sensitive, so Depth and depth are distinct variables. For these reasons, options A and D are the correct answers.

Question 6

6. Which of the following are correct? (Choose all that apply.)

A. An instance variable of type float defaults to 0.
B. An instance variable of type char defaults to null.
C. An instance variable of type double defaults to 0.0.
D. An instance variable of type int defaults to null.
E. An instance variable of type String defaults to null.
F. An instance variable of type String defaults to the empty string "".
G. None of the above

Answer 6

C, E.

• Option C is correct because float and double primitives default to 0.0, which also makes option A incorrect.
• Option E is correct because all nonprimitive values default to null, which makes option F incorrect.
• Option D is incorrect because int primitives default to 0.
• Option B is incorrect because char defaults to the NUL character, ‘\u0000’. You don’t need to know this value for the exam, but you should know the default value is not null since it is a primitive.

Question 7

7. Which of the following are correct? (Choose all that apply.)
A. A local variable of type boolean defaults to null.
B. A local variable of type float defaults to 0.0f.
C. A local variable of type double defaults to 0.
D. A local variable of type Object defaults to null.
E. A local variable of type boolean defaults to false.
F. A local variable of type float defaults to 0.0.
G. None of the above

Answer 7

G
G. Option G is correct because local variables do not get assigned default values. The code fails to compile if a local variable is used when not being explicitly initialized. If this question were about instance variables, options B, D, and E would be correct. A boolean primitive defaults to false, and a float primitive defaults to 0.0f.

Question 8

8. Which of the following are true? (Choose all that apply.)

A. A class variable of type boolean defaults to 0.
B. A class variable of type boolean defaults to false.
C. A class variable of type boolean defaults to null.
D. A class variable of type long defaults to null.
E. A class variable of type long defaults to 0L.
F. A class variable of type long defaults to 0.
G. None of the above

Answer 8

B, E.

• Option B is correct because boolean primitives default to false.
• Option E is correct because long values default to 0L.

Question 9

9. Which of the following statements about garbage collection are correct? (Choose all that apply.)

A. Calling System.gc() is guaranteed to free up memory by destroying objects eligible for garbage collection.
B. Garbage collection runs on a set schedule.
C. Garbage collection allows the JVM to reclaim memory for other objects.
D. Garbage collection runs when your program has used up half the available memory.
E. An object may be eligible for garbage collection but never removed from the heap.
F. An object is eligible for garbage collection once no references to it are accessible in the program.
G. Marking a variable final means its associated object will never be garbage collected.

Answer 9

C, E, F.

• In Java, there are no guarantees when garbage collection will run. The JVM is free to ignore calls to System.gc(). For this reason, options A, B, and D are incorrect.
• Option C is correct, as the purpose of garbage collection is to reclaim used memory.
• Option E is also correct that an object may never be garbage collected, such as if the program ends before garbage collection runs.
• Option F is correct and is the primary means by which garbage collection algorithms determine whether an object is eligible for garbage collection.
• Finally, option G is incorrect as marking a variable final means it is constant within its own scope. For example, a local variable marked final will be eligible for garbage collection after the method ends, assuming there are no other references to the object that exist outside the method.

Question 10

10.Which statements about the following class are correct? (Choose all that apply.)

1: public class PoliceBox {
2: String color;
3: long age;
4: public void PoliceBox() {
5: color = "blue";
6: age = 1200;
7: }
8: public static void main(String []time) {
9: var p = new PoliceBox();
10: var q = new PoliceBox();
11: p.color = "green";
12: p.age = 1400;
13: p = q;
14: System.out.println("Q1="+q.color);
15: System.out.println("Q2="+q.age);
16: System.out.println("P1="+p.color);
17: System.out.println("P2="+p.age);
18: } }

A. It prints Q1=blue.
B. It prints Q2=1200.
C. It prints P1=null.
D. It prints P2=1400.
E. Line 4 does not compile.
F. Line 12 does not compile.
G. Line 13 does not compile.
H. None of the above

Answer 10

C.

• The class does compiles without issue, so options E, F, and G are incorrect.
• The key thing to notice is line 4 does not define a constructor, but instead a method named PoliceBox(), since it has a return type of void. This method is never executed during the program run, and color and age get assigned the default values null and 0L, respectively.
• Lines 11 and 12 change the values for an object associated with p, but then on line 13 the p variable is changed to point to the object associated with q, which still has the default values. For this reason, the program prints Q1=null, Q2=0, P1=null, and P2=0, making option C the only correct answer.

Question 11

11. Which of the following legally fill in the blank so you can run the main() method from the command line? (Choose all that apply.)

public static void main(\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_) {}

A. String… var
B. String My.Names[]
C. String[] 123
D. String[] _names
E. String… $n
F. var names
G. String myArgs

Answer 11

A, D, E.

• From Chapter 1, a main() method must have a valid identifier of type String… or String[]. For this reason, option G can be eliminated immediately.
• Option A is correct because var is not a reserved word in Java and may be used as an identifier.
• Option B is incorrect as a period (.) may not be used in an identifier.
• Option C is also incorrect as an identifier may include digits but not start with one.
• Options D and E are correct as an underscore (_) and dollar sign ($) may appear anywhere in an identifier. Finally, option F is incorrect, as a var may not be used as a method argument.

Question 12

12. Which of the following expressions, when inserted independently into the blank line, allow the code to compile? (Choose all that apply.)

public void printMagicData() {
double magic = \_\_\_\_\_\_\_\_\_\_;
System.out.println(magic);
}

A. 3_1
B. 1_329_.0
C. 3_13.0_
D. 5_291._2
E. 2_234.0_0
F. 9___6
G. _1_3_5_0
H. None of the above

Answer 12

A, E, F.

• An underscore (_) can be placed in any numeric literal, so long as it is not at the beginning, the end, or next to a decimal point (.). Underscores can even be placed next to each other. For these reasons, options A, E, and F are correct.
• Options B and D are incorrect, as the underscore (_) is next to a decimal point (.). Options C and G are incorrect, because an underscore (_) cannot be placed at the beginning or end of the literal.

Question 13

13. Suppose we have a class named Rabbit. Which of the following statements are true? (Choose all that apply.)

1: public class Rabbit {
2:     public static void main(String[] args) {
3:         Rabbit one = new Rabbit();
4:         Rabbit two = new Rabbit();
5:         Rabbit three = one;
6:         one = null;
7:         Rabbit four = one;
8:         three = null;
9:         two = null;
10:       two = new Rabbit();
11:       System.gc();
12: } }

A. The Rabbit object created on line 3 is first eligible for garbage collection immediately following line 6.
B. The Rabbit object created on line 3 is first eligible for garbage collection immediately following line 8.
C. The Rabbit object created on line 3 is first eligible for garbage collection immediately following line 12.
D. The Rabbit object created on line 4 is first eligible for garbage collection immediately following line 9.
E. The Rabbit object created on line 4 is first eligible for garbage collection immediately following line 11.
F. The Rabbit object created on line 4 is first eligible for garbage collection immediately following line 12.
G. The Rabbit object created on line 10 is first eligible for garbage collection immediately following line 11.
H. The Rabbit object created on line 10 is first eligible for garbage collection immediately following line 12.

Answer 13

B, D, H.
The Rabbit object from line 3 has two references to it: one and three. The references are set to null on lines 6 and 8, respectively. Option B is correct because this makes the object eligible for garbage collection after line 8. Line 7 sets the reference four to null, since that is the value of one, which means it has no effect on garbage collection. The Rabbit object from line 4 has only a single reference to it: two. Option D is correct because this single reference becomes null on line 9. The Rabbit object declared on line 10 becomes eligible for garbage collection at the end of the method on line 12, making option H correct. Calling System.gc() has no effect on eligibility for garbage collection.

Question 14

14.Which of the following statements about var are true? (Choose all that apply.)

A. A var can be used as a constructor parameter.
B. The type of var is known at compile time.
C. A var cannot be used as an instance variable.
D. A var can be used in a multiple variable assignment statement.
E. The value of var cannot change at runtime.
F. The type of var cannot change at runtime.
G. The word var is a reserved word in Java.

Answer 14

B, C, F.

• A var cannot be used for a constructor or method parameter or for an instance or class variable, making option A incorrect and option C correct.
• The type of var is known at compile-time and the type cannot be changed at runtime, although its value can change at runtime. For these reasons, options B and F are correct, and option E is incorrect.
• Option D is incorrect, as var is not permitted in multiple-variable declarations. Finally, option G is incorrect, as var is not a reserved word in Java.

Question 15

15. Given the following class, which of the following lines of code can independently replace INSERT CODE HERE to make the code compile?(Choose all that apply.)

public class Price {
    public void admission() {
        INSERT CODE HERE
        System.out.print(amount);
    } 
}

A. int Amount = 0b11;
B. int amount = 9L;
C. int amount = 0xE;
D. int amount = 1_2.0;
E. double amount = 1_0_.0;
F. int amount = 0b101;
G. double amount = 9_2.1_2;
H. double amount = 1_2_.0_0;

Answer 15

C, F, G.

• First off, 0b is the prefix for a binary value, and 0x is the prefix for a hexadecimal value. These values can be assigned to many primitive types, including int and double, making options C and F correct.
• Option A is incorrect because naming the variable Amount will cause the System.out.print(amount) call on the next line to not compile.
• Option B is incorrect because 9L is a long value. If the type was changed to long amount = 9L, then it would compile.
• Option D is incorrect because 1_2.0 is a double value. If the type was changed to double amount = 1_2.0, then it would compile.
• Options E and H are incorrect because the underscore (_) appears next to the decimal point (.), which is not allowed.
• Finally, option G is correct and the underscore and assignment usage is valid.

Question 15

16. Which statements about the following class are correct? (Choose all that apply.)

1: public class ClownFish {
2: int gills = 0, double weight=2;
3: { int fins = gills; }
4: void print(int length = 3) {
5: System.out.println(gills);
6: System.out.println(weight);
7: System.out.println(fins);
8: System.out.println(length);
9: } }

A. Line 2 contains a compiler error.
B. Line 3 contains a compiler error.
C. Line 4 contains a compiler error.
D. Line 7 contains a compiler error.
E. The code prints 0.
F. The code prints 2.0.
G. The code prints 2.
H. The code prints 3.

Answer 15

A, C, D.

• The code contains three compilation errors, so options E, F, G, and H are incorrect.
• Line 2 does not compile, as this is incorrect syntax for declaring multiple variables, making option A correct. The data type is declared only once and shared among all variables in a multiple variable declaration.
• Line 3 compiles without issue, as it declares a local variable inside an instance initializer that is never used.
• Line 4 does not compile because Java, unlike some other programming languages, does not support setting default method parameter values, making option C correct.
• Finally, line 7 does not compile because fins is in scope and accessible only inside the instance initializer on line 3, making option D correct.

Question 16

17. Which statements about classes and its members are correct? (Choose all that apply.)

A. A variable declared in a loop cannot be referenced outside the loop.
B. A variable cannot be declared in an instance initializer block.
C. A constructor argument is in scope for the life of the instance of the class for which it is defined.
D. An instance method can only access instance variables declared before the instance method declaration.
E. A variable can be declared in an instance initializer block but cannot be referenced outside the block.
F. A constructor can access all instance variables.
G. An instance method can access all instance variables.

Answer 16

A, E, F, G.

• The question is primarily about variable scope.
• A variable defined in a statement such as a loop or initializer block is accessible only inside that statement. For this reason, options A and E are correct.
• Option B is incorrect because variables can be defined inside initializer blocks.
• Option C is incorrect, as a constructor argument is accessible only in the constructor itself, not for the life of the instance of the class.
• Constructors and instance methods can access any instance variable, even ones defined after their declaration, making option D incorrect and options F and G correct.

Question 17

18. Which statements about the following code snippet are correct? (Choose all that apply.)

3: var squirrel = new Object();
4: int capybara = 2, mouse, beaver = -1;
5: char chipmunk = -1;
6: squirrel = "";
7: beaver = capybara;
8: System.out.println(capybara);
9: System.out.println(mouse);
10: System.out.println(beaver);
11: System.out.println(chipmunk);

A. The code prints 2.
B. The code prints -1.
C. The code prints the empty String.
D. The code prints: null.
E. Line 4 contains a compiler error.
F. Line 5 contains a compiler error.
G. Line 9 contains a compiler error.
H. Line 10 contains a compiler error.

Answer 17

F, G.

• The code does not compile, so options A, B, C, and D are all incorrect.
• The first compilation error occurs on line 5. Since char is an unsigned data type, it cannot be assigned a negative value, making option F correct.
• The second compilation error is on line 9, since mouse is used without being initialized, making option G correct. You could fix this by initializing a value on line 4, but the compiler reports the error where the variable is used, not where it is declared.

Question 18

19.Assuming the following class compiles, how many variables defined in the class or method are in scope on the line marked // SCOPE on line 14?

1: public class Camel {
2:     { int hairs = 3_000_0; }
3:     long water, air=2;
4:     boolean twoHumps = true;
5:     public void spit(float distance) {
6:         var path = "";
7:         { double teeth = 32 + distance++; }
8:         while(water > 0) {
9:             int age = twoHumps ? 1 : 2;
10:           short i=-1;
11:           for(i=0; i<10; i++) {
12:               var Private = 2;
13:           }
14: // SCOPE
15:         }
16:     }
17: }

A. 2
B. 3
C. 4
D. 5
E. 6
F. 7
G. None of the above

Answer 18

F.

To solve this problem, you need to trace the braces {} and see when variables go in and out of scope. You are not required to understand the various data structures in the question, as this will be covered in the next few chapters. We start with hairs, which goes in and out of scope on line 2, as it is declared in an instance initializer, so it is not in scope on line 14. The three variables—water, air, twoHumps, declared on lines 3 and 4—are instance variables, so all three are in scope in all instance methods of the class, including spit() and on line 14. The distance method parameter is in scope for the life of the spit() method, making it the fourth value in scope on line 14. The path variable is in scope on line 6 and stays in scope until the end of the method on line 16, making it the fifth variable in scope on line 14. The teeth variable is in scope on line 7 and immediately goes out of scope on line 7 since the statement ends. The two variables age and i defined on lines 9 and 10, respectively, both stay in scope until the end of the while loop on line 15, bringing the total variables in scope to seven on line 14. Finally, Private is in scope on 12 but out of scope after the for loop ends on line 13. Since the total in-scope variables is seven, option F is the correct answer.

Question 19

20. What is the output of executing the following class?

1: public class Salmon {
2: int count;
3: { System.out.print(count+"-"); }
4: { count++; }
5: public Salmon() {
6: count = 4;
7: System.out.print(2+"-");
8: }
9: public static void main(String[] args) {
10: System.out.print(7+"-");
11: var s = new Salmon();
12: System.out.print(s.count+"-"); } }

A. 7-0-2-1-
B. 7-0-1-
C. 0-7-2-1-
D. 7-0-2-4-
E. 0-7-1-
F. The class does not compile because of line 3.
G. The class does not compile because of line 4.
H. None of the above.

Answer 19

D.
The class compiles and runs without issue, so options F and G are incorrect.
We start with the main() method, which prints 7- on line 11. Next, a new Salmon instance is created on line 11. This calls the two instance initializers on lines 3 and 4 to be executed in order. The default value of an instance variable of type int is 0, so 0- is printed next and count is assigned a value of 1. Next, the constructor is called. This assigns a value of 4 to count and prints 2-. Finally, line 12 prints 4-, since that is the value of count. Putting it altogether, we have 7-0-2-4-, making option D the correct answer.

Question 20

21. Which statements about the following program are correct? (Choose all that apply.)

1: public class Bear {
2:     private Bear pandaBear;
3:     protected void finalize() {}
4:     private void roar(Bear b) {
5:         System.out.println("Roar!");
6:         pandaBear = b;
7:     }
8:     public static void main(String[] args) {
9:         Bear brownBear = new Bear();
10:       Bear polarBear = new Bear();
11:       brownBear.roar(polarBear);
12:       polarBear = null;
13:       brownBear = null;
14:       System.gc(); } }

A. The object created on line 9 is eligible for garbage collection after line 13.
B. The object created on line 9 is eligible for garbage collection after line 14.
C. The object created on line 10 is eligible for garbage collection after line 12.
D. The object created on line 10 is eligible for garbage collection after line 13.
E. Garbage collection is guaranteed to run.
F. Garbage collection might or might not run.
G. Garbage collection is guaranteed not to run.
H. The code does not compile.

Answer 20

A, D, F.

• The class compiles and runs without issue, so option H is incorrect.
• The program creates two Bear objects, one on line 9 and one on line 10. The first Bear object is accessible until line 13 via the brownBear reference variable. The second Bear object is passed to the first object’s roar() method on line 11, meaning it is accessible via both the polarBear reference and the brownBear.pandaBear reference. After line 12, the object is still accessible via brownBear.pandaBear. After line 13, though, it is no longer accessible since brownBear is no longer accessible. In other words, both objects become eligible for garbage collection after line 13, making options A and D correct.
• Finally, garbage collection is never guaranteed to run or not run, since the JVM decides this for you. For this reason, option F is correct, and options E and G are incorrect. The class contains a finalize() method, although this does not contribute to the answer. For the exam, you may see finalize() in a question, but since it’s deprecated as of Java 9, you will not be tested on it.

Question 21

22.Which of the following are valid instance variable declarations? (Choose all that apply.)

A. var _ = 6000_.0;
B. var null = 6_000;
C. var $_ = 6_000;
D. var $2 = 6_000f;
E. var var = 3_0_00.0;
F. var #CONS = 2_000.0;
G. var %C = 6_000_L;
H. None of the above

Answer 21

H.

None of these declarations is a valid instance variable declaration, as var cannot be used with instance variables, only local variables. For this reason, option H is the only correct answer.

If the question were changed to be about local variable declarations, though, then the correct answers would be options C, D, and E. An identifier must start with a letter, $, or _, so options F and G would be incorrect. As of Java 9, a single underscore is not allowed as an identifier, so option A would be incorrect. Options A and G would also be incorrect because their numeric expressions use underscores incorrectly. An underscore cannot appear at the end of literal value, nor next to a decimal point (.). Finally, null is a reserved word, but var is not, so option B would be incorrect, and option E would be correct.