/* Date.java */
import java.io.*;
class Date {
/* Put your private data fields here. */
/** Constructs a date with the given month, day and year. If the date is
* not valid, the entire program will halt with an error message.
* @param month is a month, numbered in the range 1...12.
* @param day is between 1 and the number of days in the given month.
* @param year is the year in question, with no digits omitted.
*/
public Date(int month, int day, int year) {
}
/** Constructs a Date object corresponding to the given string.
* @param s should be a string of the form "month/day/year" where month must
* be one or two digits, day must be one or two digits, and year must be
* between 1 and 4 digits. If s does not match these requirements or is not
* a valid date, the program halts with an error message.
*/
public Date(String s) {
}
/** Checks whether the given year is a leap year.
* @return true if and only if the input year is a leap year.
*/
public static boolean isLeapYear(int year) {
return true; // replace this line with your solution
}
/** Returns the number of days in a given month.
* @param month is a month, numbered in the range 1...12.
* @param year is the year in question, with no digits omitted.
* @return the number of days in the given month.
*/
public static int daysInMonth(int month, int year) {
return 0; // replace this line with your solution
}
/** Checks whether the given date is valid.
* @return true if and only if month/day/year constitute a valid date.
*
* Years prior to A.D. 1 are NOT valid.
*/
public static boolean isValidDate(int month, int day, int year) {
return true; // replace this line with your solution
}
/** Returns a string representation of this date in the form month/day/year.
* The month, day, and year are expressed in full as integers; for example,
* 12/7/2006 or 3/21/407.
* @return a String representation of this date.
*/
public String toString() {
return "stuff"; // replace this line with your solution
}
/** Determines whether this Date is before the Date d.
* @return true if and only if this Date is before d.
*/
public boolean isBefore(Date d) {
return true; // replace this line with your solution
}
/** Determines whether this Date is after the Date d.
* @return true if and only if this Date is after d.
*/
public boolean isAfter(Date d) {
return true; // replace this line with your solution
}
/** Returns the number of this Date in the year.
* @return a number n in the range 1...366, inclusive, such that this Date
* is the nth day of its year. (366 is only used for December 31 in a leap
* year.)
*/
public int dayInYear() {
return 0; // replace this line with your solution
}
/** Determines the difference in days between d and this Date. For example,
* if this Date is 12/15/1997 and d is 12/14/1997, the difference is 1.
* If this Date occurs before d, the result is negative.
* @return the difference in days between d and this date.
*/
public int difference(Date d) {
return 0; // replace this line with your solution
}
public static void main(String[] argv) {
System.out.println("\nTesting constructors.");
Date d1 = new Date(1, 1, 1);
System.out.println("Date should be 1/1/1: " + d1);
d1 = new Date("2/4/2");
System.out.println("Date should be 2/4/2: " + d1);
d1 = new Date("2/29/2000");
System.out.println("Date should be 2/29/2000: " + d1);
d1 = new Date("2/29/1904");
System.out.println("Date should be 2/29/1904: " + d1);
d1 = new Date(12, 31, 1975);
System.out.println("Date should be 12/31/1975: " + d1);
Date d2 = new Date("1/1/1976");
System.out.println("Date should be 1/1/1976: " + d2);
Date d3 = new Date("1/2/1976");
System.out.println("Date should be 1/2/1976: " + d3);
Date d4 = new Date("2/27/1977");
Date d5 = new Date("8/31/2110");
/* I recommend you write code to test the isLeapYear function! */
System.out.println("\nTesting before and after.");
System.out.println(d2 + " after " + d1 + " should be true: " +
d2.isAfter(d1));
System.out.println(d3 + " after " + d2 + " should be true: " +
d3.isAfter(d2));
System.out.println(d1 + " after " + d1 + " should be false: " +
d1.isAfter(d1));
System.out.println(d1 + " after " + d2 + " should be false: " +
d1.isAfter(d2));
System.out.println(d2 + " after " + d3 + " should be false: " +
d2.isAfter(d3));
System.out.println(d1 + " before " + d2 + " should be true: " +
d1.isBefore(d2));
System.out.println(d2 + " before " + d3 + " should be true: " +
d2.isBefore(d3));
System.out.println(d1 + " before " + d1 + " should be false: " +
d1.isBefore(d1));
System.out.println(d2 + " before " + d1 + " should be false: " +
d2.isBefore(d1));
System.out.println(d3 + " before " + d2 + " should be false: " +
d3.isBefore(d2));
System.out.println("\nTesting difference.");
System.out.println(d1 + " - " + d1 + " should be 0: " +
d1.difference(d1));
System.out.println(d2 + " - " + d1 + " should be 1: " +
d2.difference(d1));
System.out.println(d3 + " - " + d1 + " should be 2: " +
d3.difference(d1));
System.out.println(d3 + " - " + d4 + " should be -422: " +
d3.difference(d4));
System.out.println(d5 + " - " + d4 + " should be 48762: " +
d5.difference(d4));
}
}