Select the valid ways which refer to the class from outside the package net.codemaster. package net.codemaster; public class code { // ...Write some statements here... } ,Java, C ,C++, ASP, ASP.net C# ,Struts ,Questions & Answer, Struts2, Ajax, Hibernate, Swing ,JSP , Servlet, J2EE ,Core Java ,Stping, VC++, HTML, DHTML, JAVASCRIPT, VB ,CSS, interview ,questions, and answers, for,experienced, and fresher
Select the valid ways which refer to the class from outside the package net.codemaster.
package net.codemaster;

public class code 
{
    // ...Write some statements here...
}

More interview questions and answers

Final Arguments

What result comes when we compile and following code: public class R4RSCJPTest { public static void main(String args[]) { byte i = 4; i = (byte)~i; System.out.println("Value of i is " +i); } }

Select operator which we use in Java for bitwise inversion.

What result comes when we compile and run following code: public class R4RSCJPTest { public static void main(String args[]) { int i,j; i = 1 & 5; j = 2 | 7; System.out.println("Value of i is " + i + ", Value of j is " + j ); } }

What result comes when we compile and run following code: public class R4RSCJPTest { public static void main(String args[]) { int i = -1; int j = i>>3; int k = j & 129; System.out.println("Value of k is " +k); } }

What result comes when we compile and run following code: public class R4RSCJPTest { public static void main(String args[]) { int i,j; i = 1 | 5 ; j = 2 ^ 7; System.out.println("Value of i is " + i + ", Value of j is " + j); } }

Synchronized Methods

Native Methods

Strictfp Methods

What result comes when we compile and run following code: public class R4RSCJPTest { public static void main(String args[]) { boolean boo = true; int i; if(boo) i = boo ? 3: 2; else i = boo ? 4: 1; System.out.println("Value of i is " +i); } }

What result comes when we compile and run following code: public class R4RSCJPTest { public static void main(String args[]) { boolean boo = false; int i; if(boo) i = boo ? 3: 2; else i = boo ? 4: 1; System.out.println("Value of i is " +i); } }

What result comes when we compile and run following code: public class R4RSCJPTest { public static void main(String args[]) { int i = 0; if(i < 0) i = 1; switch(i) { case 2: System.out.println(2); case 0: System.out.println(0); case 1: System.out.println(1); break; case 3: System.out.println(3); default: System.out.println(4); break; } } }

What result comes when we compile and run following code: public class R4RSCJPTest { public static void main(String args[]) { int i, j; i = 7 >> 2; j = 7 >>> 2; System.out.println("Value of i is " +i+",Value of j is " +j); } }

What result comes when we compile and run following code: public class R4RSCJPTest { public static void main(String args[]) { int i; i = -2 << 1; i = i >> 3; i = i >>> 2; System.out.println("Value of i is " +i); } }

What result comes when we compile and run following code: public class R4RSCJPTest { public static void main(String args[]) { int i; i = -2 << 1; i = i >>> 2; i = i >> 1; System.out.println("Value of i is " +i); } }

What result comes when we compile and run following code: public class R4RSCJPTest { public static void main(String args[]) { int i = -4; i = i << 2; System.out.println("Value of i is " +i); } }

Select correct signed right shift operator from following.

Select shift operator which are not used in Java.

What result comes when we compile and run following code: public class R4RSCJPTest { public static void main(String args[]) { int i = 0, J = 1, k; if(i) k = 2; else k = 1; if(j) k = 0; else k = 3; System.out.println("Value of k is " +k); } }

What result comes when we compile and run following code: public class R4RSCJPTest { public static void main(String args[]) { for(int i = 0; i < 2; i++) { for(int j = 1; j >= 0; j--) { if(i == j) continue; System.out.println("Value of i is "+ i + ", Value of j is " + j); } } } }

What result comes when we compile and run following code: public class Test { public static void main(String args[]) { for(int i = 0; i < 2; i++) { for(int j = 1; j >= 0; j--) { if(i == j) break; System.out.println("Value of i is "+ i + ", Value of j is " + j); } } } }

What result comes when we compile and run following code: public class R4RSCJPTest { public static void main(String args[]) { outer: for(int i = 0; i < 2; i++) { for(int j = 2; j >= 0; j--) { if(i == j) continue outer; System.out.println("Value of i is " +i+ ", Value of j is " +j); } } } }

What result comes when we compile and run following code: public class R4RSCJPTest { public static void main(String args[]) { outer: for(int i = 0; i < 2; i++) { for(int j = 2; j >= 0; j--) { if(i == j) break outer; System.out.println("Value of i is " +i+ ", Value of j is " +j); } } } }

Variable Declarations

Instance Variables

Local (Automatic/Stack/Method) Variables

Final Variables

Transient Variables

Volatile Variables

Static Variables and Methods

Accessing Static Methods and Variables

Declaration Rules

Source File Structure

Using Import Statements

Formatting the main() Method

Interface Implementation

Declaring an Interface

Declaring Interface Constants

Implementing an Interface

What result comes when we compile and run following code: class Test { public static void main(String args[]) { int arr[] = new int[2]; System.out.println(arr[0]); } }

Select legal declaration and defination of a method.

What result comes when we compile and run following code: public class R4RSCJPTest { public static void main(String args[]) { int i = 1; int j = 0; boolean boo = true; boolean boo1; boo1 = (boo && 0<(i+=2)); boo1 = (boo && 0<(i+=1)); boo1 = (boo && 0<(j+=2)); boo1 = (boo || 0<(j+=1)); System.out.println("Value of i is " + i + ", Value of j is " + j ); } }

What result comes when we compile and run following code: public class R4RSCJPTest { public static void main(String args[]) { int i = 1; int j = 0; boolean boo = false; boolean boo1; boo1 = (boo && 0<(i+=2)); boo1 = (boo && 0<(i+=1)); boo1 = (boo && 0<(j+=2)); boo1 = (boo || 0<(j+=1)); System.out.println("Value of i is " + i + ", Value of j is " + j ); } }

What result comes when we compile and run following code: public class R4RSCJPTest { public static void main(String args[]) { char A = '\u0005'; if ( A == 0x0005L ) System.out.println("Equal"); else System.out.println("Not Equal"); } }

What result comes when we compile and run following code: class R4RSCJPTest { public void methodTest(int i) { System.out.println("Value of i is " +i); } public int methodTest(int i) { System.out.println("Value of i+1 is " + (i+1)); return (i+1); } public static void main(String args[]) { R4RSCJPTest a = new R4RSCJPTest(); a.methodTest(4); } }

What result comes when we compile and run following code: class R4RSCJPTest { public static void main(String arg[]) { int a[]={2,2}; int b=0; a[b]=b=1; System.out.println(a[0]); System.out.println(a[1]); } }

Select two valid character contants from followings.

Select correct statement to execute given program: public class R4RSCJPTest { int planets; static int suns; public void gaze() { int i; // .... write statements here .... } }

Select all valid statement from followings.

Select the valid ways which refer to the class from outside the package net.codemaster. package net.codemaster; public class code { // ...Write some statements here... }

public class myprog { public static void main(String [] args) { signed int a = 20; for (int b=0; b<10; b++, a--) System.out.print(" " + a); } }

What result comes when we compile and run following code: protected class R4RSCJPTest { public static void main(String args[]) { String str1 = "xyz", str2 = "pqr",str; str = str1 + str2; System.out.println(str); } }

Which word is reserved word in the Java programming language in the following option?

Which one of these lists contains only Java programming language keywords?

Which two are keywords?

A top level class without any modifier is accessible by....... (Select most appropriate answer)

Which three are valid declarations of a char?

Which two are valid declarations of a String?

Which one is a valid declaration of a boolean?

What is the numerical range of a char?

Which three are valid declarations of a float?

From below select three correct statement in Java.

Which three are legal array declarations?

public class myprog { public static void main(String [] args) { int [] [] [] a = new int [3] [] []; int x,y; a[0] = new int[3][]; a[1] = new int[3][]; a[2] = new int[4][]; for (x=0; xGiven the following, public class myprog { public static void main(String [] args) { byte [][] big = new byte [8][8]; byte [][] x = new byte [3][2]; byte x3 = 6; byte x2 [][][][] = new byte [3][4][2][3]; .................................. } } which of the following lines of code could be inserted at dotted line , and still allow the code to compile?

Which two will declare an array and initialize it with Ten numbers?

Which will legally declare, construct, and initialize an array?

Which four describe the correct default values for array elements of the types indicated?

Given the following, public class myhorse { public static void main(String [] args) { Horse [][] theHorse = new Horse[3][]; System.out.println(theHorse[2][0].toString()); } } class Horse {} what is the result?

Given the following, public class myprog { public static void main(String [] args) { String names [] = new String[10]; for (int i=0; i < args.length; i++) names[i] = args[i]; System.out.println(names[2]); } } and the command line invocation is java i a b what is the result?

Given the following, public class CommandArgs { public static void main(String [] args) { String s1 = args[1]; String s2 = args[2]; String s3 = args[3]; String s4 = args[4]; System.out.print(" args[2] = " + s2); } } and the command-line invocation, java CommandArgs 1 2 3 4 , what is the result?

Given the following, public class CommandArgsTwo { public static void main(String [] argh) { String [] args; int x; x = argh.length; for (int y = 1; y <= x; y++) { System.out.print(" " + argh[y]); } } } and the command-line invocation, java CommandArgsTwo 1 2 3

Given the following, public class CommandArgsThree { public static void main(String [] args) { String [][] argCopy = new String[2][2]; int x; argCopy[0] = args; x = argCopy[0].length; for (int y = 0; y < x; y++) { System.out.print(" " + argCopy[0][y]); } } } and the command-line invocation, java CommandArgsThree 1 2 3 what is the result?

What result comes when we compile and run following code: class R4RSCJPTest { public static void main(String args[]) { StringBuffer sb1 = new StringBuffer("Vivek"); StringBuffer sb2 = new StringBuffer("Vivek"); String s1 = "Vivek"; String s2 = "Vivek"; System.out.print(s1==s2); System.out.print(" "+(sb1==sb2)); System.out.print(" "+(s1.equals(s2))); System.out.print(" "+(sb1.equals(sb2))); System.out.print(" "+(s1.equals(sb2))); System.out.print(" "+(sb1.equals(s2))); } }

What result comes when we compile and run following code: class R4RSCJPTest { public static void main(String args[]) { String s1 = "Vivek"; String s2 = "Vivek"; System.out.print(" "+s1==s2); System.out.print(" "+(s1==s2)); } }

What result comes when we compare and run followig code: class R4RSCJPTest { public static void main(String args[]) { System.out.println("R4R Welcomes You!".substring(3)); } }

What is the most restrictive access modifier that will allow members of one class to have access to members of another class in the same package?

Given a method in a protected class, what access modifier do we use to restrict access to that method to only the other members of the same class?

What result come when we compile and run following code: class R4RSCJPTest { public static void main(String arg[]) { StringBuffer sb[]={"R","V"}; System.out.println(sb[0]+" , "+sb[1]); } }

Given the following, abstract class myprog { abstract short p1() ; short m2() { return (short) 786; } } abstract class myprog1 extends myprog { // missing code ? short p1() { return (short) 78; } } which three of the following statements are true?

Which two of the following are legal declarations for nonnested classes and interfaces?

How many of the following are legal method declarations? A> protected abstract void m1(); B> static final void m1(){} C> transient private native void m1() {} D> synchronized public final void m1() {} E> private native void m1(); F> static final synchronized protected void m1() {}

Given the following, package testpkg.p1; public class ParentUtil { public int x = 420; protected int doStuff() { return x; } } package testpkg.p2; import testpkg.p1.ParentUtil; public class ChildUtil extends ParentUtil { public static void main(String [] args) { new ChildUtil().callStuff(); } void callStuff() { System.out.print("this " + this.doStuff() ); ParentUtil p = new ParentUtil(); System.out.print(" parent " + p.doStuff() ); } } which statement is true?

Given the following, interface Count { short counter = 0; void countUp(); } public class TestCount implements Count { public static void main(String [] args) { TestCount t = new TestCount(); t.countUp(); } public void countUp() { for (int x = 6; x>counter; x--, ++counter) { System.out.print(" " + counter); } } } what is the result?

Given the following, import java.util.*; public class NewTreeSet2 extends NewTreeSet { public static void main(String [] args) { NewTreeSet2 t = new NewTreeSet2(); t.count(); } } protected class NewTreeSet { void count() { for (int x = 0; x < 7; x++,x++ ) { System.out.print(" " + x); } } } what is the result?

Given the following, .................................. public class NewTreeSet extends java.util.TreeSet{ public static void main(String [] args) { java.util.TreeSet t = new java.util.TreeSet(); t.clear(); } public void clear() { TreeMap m = new TreeMap(); m.clear(); } } which two statements, added independently at Dotted line , allow the code to compile?

Which two are valid declarations within an interface?

Which of the following class level (nonlocal) variable declarations will not compile?

Given the following, 1. interface DoMath { 2. double getArea(int rad); } 3. 4. interface MathPlus { double getVol(int b, int h); } ---------------------------------- .................................. which two code fragments inserted at Dash and Dotted lines will compile?

Which three are valid method signatures in an interface?

Which two statements are true for any concrete class implementing the java.lang.Runnable interface?

What result come when we compile and run following code: class R4RSCJPTest { public static void main(String ds[]) { String str="Vivek"; str.concat("Kumar"); str+=" Agarwal"; System.out.println( str + " Welcomes You! At R4R."); } }

Given the following, interface Base { boolean m1 (); byte m2(short s); } which two code fragments will compile?

Properties of main()

java.lang.Runnable

Java Operators

Assignment Operators

Primitive Assignments

Assigning Floating-Point Numbers

Assigning a Literal That Is Too Large for the Variable

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