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/*
* Copyright (c) 2009 Albert Kurucz.
*
* This file, SerialDateUtilities.java is part of JTStand.
*
* JTStand is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* JTStand is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with GTStand. If not, see .
*/
package org.jfree.date;
import java.text.DateFormatSymbols;
import java.util.Calendar;
/**
* A utility class that provides a number of useful methods (some static).
* Many of these are used in the implementation of the day-count convention
* classes. I recognise some limitations in this implementation:
*
* [1] some of the methods assume that the default Calendar is a
* GregorianCalendar (used mostly to determine leap years) - so the code
* won’t work if some other Calendar is the default. I'm not sure how
* to handle this properly?
*
* [2] a whole bunch of static methods isn't very object-oriented - but I couldn't think of a good
* way to extend the Date and Calendar classes to add the functions I required,
* so static methods are doing the job for now.
*
* @author David Gilbert
*/
public class SerialDateUtilities {
/** The default date format symbols. */
private DateFormatSymbols dateFormatSymbols;
/** Strings representing the weekdays. */
private String[] weekdays;
/** Strings representing the months. */
private String[] months;
/**
* Creates a new utility class for the default locale.
*/
public SerialDateUtilities() {
this.dateFormatSymbols = new DateFormatSymbols();
this.weekdays = this.dateFormatSymbols.getWeekdays();
this.months = this.dateFormatSymbols.getMonths();
}
/**
* Returns an array of strings representing the days-of-the-week.
*
* @return an array of strings representing the days-of-the-week.
*/
public String[] getWeekdays() {
return this.weekdays;
}
/**
* Returns an array of strings representing the months.
*
* @return an array of strings representing the months.
*/
public String[] getMonths() {
return this.months;
}
/**
* Converts the specified string to a weekday, using the default locale.
*
* @param s a string representing the day-of-the-week.
*
* @return an integer representing the day-of-the-week.
*/
public int stringToWeekday(final String s) {
if (s.equals(this.weekdays[Calendar.SATURDAY])) {
return SerialDate.SATURDAY;
}
else if (s.equals(this.weekdays[Calendar.SUNDAY])) {
return SerialDate.SUNDAY;
}
else if (s.equals(this.weekdays[Calendar.MONDAY])) {
return SerialDate.MONDAY;
}
else if (s.equals(this.weekdays[Calendar.TUESDAY])) {
return SerialDate.TUESDAY;
}
else if (s.equals(this.weekdays[Calendar.WEDNESDAY])) {
return SerialDate.WEDNESDAY;
}
else if (s.equals(this.weekdays[Calendar.THURSDAY])) {
return SerialDate.THURSDAY;
}
else {
return SerialDate.FRIDAY;
}
}
/**
* Returns the actual number of days between two dates.
*
* @param start the start date.
* @param end the end date.
*
* @return the number of days between the start date and the end date.
*/
public static int dayCountActual(final SerialDate start, final SerialDate end) {
return end.compare(start);
}
/**
* Returns the number of days between the specified start and end dates,
* assuming that there are thirty days in every month (that is,
* corresponding to the 30/360 day-count convention).
*
* The method handles cases where the start date is before the end date (by
* switching the dates and returning a negative result).
*
* @param start the start date.
* @param end the end date.
*
* @return the number of days between the two dates, assuming the 30/360 day-count convention.
*/
public static int dayCount30(final SerialDate start, final SerialDate end) {
final int d1;
final int m1;
final int y1;
final int d2;
final int m2;
final int y2;
if (start.isBefore(end)) { // check the order of the dates
d1 = start.getDayOfMonth();
m1 = start.getMonth();
y1 = start.getYYYY();
d2 = end.getDayOfMonth();
m2 = end.getMonth();
y2 = end.getYYYY();
return 360 * (y2 - y1) + 30 * (m2 - m1) + (d2 - d1);
}
else {
return -dayCount30(end, start);
}
}
/**
* Returns the number of days between the specified start and end dates,
* assuming that there are thirty days in every month, and applying the
* ISDA adjustments (that is, corresponding to the 30/360 (ISDA) day-count
* convention).
*
* The method handles cases where the start date is before the end date (by
* switching the dates around and returning a negative result).
*
* @param start the start date.
* @param end the end date.
*
* @return The number of days between the two dates, assuming the 30/360
* (ISDA) day-count convention.
*/
public static int dayCount30ISDA(final SerialDate start, final SerialDate end) {
int d1;
final int m1;
final int y1;
int d2;
final int m2;
final int y2;
if (start.isBefore(end)) {
d1 = start.getDayOfMonth();
m1 = start.getMonth();
y1 = start.getYYYY();
if (d1 == 31) { // first ISDA adjustment
d1 = 30;
}
d2 = end.getDayOfMonth();
m2 = end.getMonth();
y2 = end.getYYYY();
if ((d2 == 31) && (d1 == 30)) { // second ISDA adjustment
d2 = 30;
}
return 360 * (y2 - y1) + 30 * (m2 - m1) + (d2 - d1);
}
else if (start.isAfter(end)) {
return -dayCount30ISDA(end, start);
}
else {
return 0;
}
}
/**
* Returns the number of days between the specified start and end dates,
* assuming that there are thirty days in every month, and applying the PSA
* adjustments (that is, corresponding to the 30/360 (PSA) day-count convention).
* The method handles cases where the start date is before the end date (by
* switching the dates around and returning a negative result).
*
* @param start the start date.
* @param end the end date.
*
* @return The number of days between the two dates, assuming the 30/360
* (PSA) day-count convention.
*/
public static int dayCount30PSA(final SerialDate start, final SerialDate end) {
int d1;
final int m1;
final int y1;
int d2;
final int m2;
final int y2;
if (start.isOnOrBefore(end)) { // check the order of the dates
d1 = start.getDayOfMonth();
m1 = start.getMonth();
y1 = start.getYYYY();
if (SerialDateUtilities.isLastDayOfFebruary(start)) {
d1 = 30;
}
if ((d1 == 31) || SerialDateUtilities.isLastDayOfFebruary(start)) {
// first PSA adjustment
d1 = 30;
}
d2 = end.getDayOfMonth();
m2 = end.getMonth();
y2 = end.getYYYY();
if ((d2 == 31) && (d1 == 30)) { // second PSA adjustment
d2 = 30;
}
return 360 * (y2 - y1) + 30 * (m2 - m1) + (d2 - d1);
}
else {
return -dayCount30PSA(end, start);
}
}
/**
* Returns the number of days between the specified start and end dates,
* assuming that there are thirty days in every month, and applying the
* European adjustment (that is, corresponding to the 30E/360 day-count
* convention).
*
* The method handles cases where the start date is before the end date (by
* switching the dates around and returning a negative result).
*
* @param start the start date.
* @param end the end date.
*
* @return the number of days between the two dates, assuming the 30E/360
* day-count convention.
*/
public static int dayCount30E(final SerialDate start, final SerialDate end) {
int d1;
final int m1;
final int y1;
int d2;
final int m2;
final int y2;
if (start.isBefore(end)) {
d1 = start.getDayOfMonth();
m1 = start.getMonth();
y1 = start.getYYYY();
if (d1 == 31) { // first European adjustment
d1 = 30;
}
d2 = end.getDayOfMonth();
m2 = end.getMonth();
y2 = end.getYYYY();
if (d2 == 31) { // first European adjustment
d2 = 30;
}
return 360 * (y2 - y1) + 30 * (m2 - m1) + (d2 - d1);
}
else if (start.isAfter(end)) {
return -dayCount30E(end, start);
}
else {
return 0;
}
}
/**
* Returns true if the specified date is the last day in February (that is, the
* 28th in non-leap years, and the 29th in leap years).
*
* @param d the date to be tested.
*
* @return a boolean that indicates whether or not the specified date is
* the last day of February.
*/
public static boolean isLastDayOfFebruary(final SerialDate d) {
final int dom;
if (d.getMonth() == MonthConstants.FEBRUARY) {
dom = d.getDayOfMonth();
if (SerialDate.isLeapYear(d.getYYYY())) {
return (dom == 29);
}
else {
return (dom == 28);
}
}
else { // not even February
return false;
}
}
/**
* Returns the number of times that February 29 falls within the specified
* date range. The result needs to correspond to the ACT/365 (Japanese)
* day-count convention. The difficult cases are where the start or the
* end date is Feb 29 (include or not?). Need to find out how JGBs do this
* (since this is where the ACT/365 (Japanese) convention comes from ...
*
* @param start the start date.
* @param end the end date.
*
* @return the number of times that February 29 occurs within the date
* range.
*/
public static int countFeb29s(final SerialDate start, final SerialDate end) {
int count = 0;
SerialDate feb29;
final int y1;
final int y2;
int year;
// check the order of the dates
if (start.isBefore(end)) {
y1 = start.getYYYY();
y2 = end.getYYYY();
for (year = y1; year == y2; year++) {
if (SerialDate.isLeapYear(year)) {
feb29 = SerialDate.createInstance(29, MonthConstants.FEBRUARY, year);
if (feb29.isInRange(start, end, SerialDate.INCLUDE_SECOND)) {
count++;
}
}
}
return count;
}
else {
return countFeb29s(end, start);
}
}
}