/* SimpleDateFormat.java -- A class for parsing/formating simple date constructs Copyright (C) 1998, 1999, 2000, 2001 Free Software Foundation, Inc. This file is part of GNU Classpath. GNU Classpath is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2, or (at your option) any later version. GNU Classpath 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 General Public License for more details. You should have received a copy of the GNU General Public License along with GNU Classpath; see the file COPYING. If not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA. As a special exception, if you link this library with other files to produce an executable, this library does not by itself cause the resulting executable to be covered by the GNU General Public License. This exception does not however invalidate any other reasons why the executable file might be covered by the GNU General Public License. */ package java.text; import java.util.Calendar; import java.util.Date; import java.util.Enumeration; import java.util.GregorianCalendar; import java.util.Locale; import java.util.TimeZone; import java.util.SimpleTimeZone; import java.util.Vector; import java.io.ObjectInputStream; import java.io.IOException; /** * SimpleDateFormat provides convenient methods for parsing and formatting * dates using Gregorian calendars (see java.util.GregorianCalendar). */ public class SimpleDateFormat extends DateFormat { /** A pair class used by SimpleDateFormat as a compiled representation * of a format string. */ private class FieldSizePair { public int field; public int size; /** Constructs a pair with the given field and size values */ public FieldSizePair(int f, int s) { field = f; size = s; } } private transient Vector tokens; private DateFormatSymbols formatData; // formatData private Date defaultCenturyStart = computeCenturyStart (); private String pattern; private int serialVersionOnStream = 1; // 0 indicates JDK1.1.3 or earlier private static final long serialVersionUID = 4774881970558875024L; // This string is specified in the JCL. We set it here rather than // do a DateFormatSymbols(Locale.US).getLocalPatternChars() since // someone could theoretically change those values (though unlikely). private static final String standardChars = "GyMdkHmsSEDFwWahKz"; private void readObject(ObjectInputStream stream) throws IOException, ClassNotFoundException { stream.defaultReadObject(); if (serialVersionOnStream < 1) { defaultCenturyStart = computeCenturyStart (); serialVersionOnStream = 1; } // Set up items normally taken care of by the constructor. tokens = new Vector(); compileFormat(pattern); } private void compileFormat(String pattern) { // Any alphabetical characters are treated as pattern characters // unless enclosed in single quotes. char thisChar; int pos; int field; FieldSizePair current = null; for (int i=0; i= 0) ch = newChars.charAt(j); } buf.append(ch); } return buf.toString(); } /** * Returns the start of the century used for two digit years. * * @return A Date representing the start of the century * for two digit years. */ public Date get2DigitYearStart() { return defaultCenturyStart; } /** * Sets the start of the century used for two digit years. * * @param date A Date representing the start of the century for * two digit years. */ public void set2DigitYearStart(Date date) { defaultCenturyStart = date; } /** * This method returns the format symbol information used for parsing * and formatting dates. * * @return The date format symbols. */ public DateFormatSymbols getDateFormatSymbols() { return formatData; } /** * This method sets the format symbols information used for parsing * and formatting dates. * * @param formatData The date format symbols. */ public void setDateFormatSymbols(DateFormatSymbols formatData) { this.formatData = formatData; } /** * This methods tests whether the specified object is equal to this * object. This will be true if and only if the specified object: *

*

* * @param obj The object to compare for equality against. * * @return true if the specified object is equal to this object, * false otherwise. */ public boolean equals(Object o) { if (o == null) return false; if (!super.equals(o)) return false; if (!(o instanceof SimpleDateFormat)) return false; SimpleDateFormat sdf = (SimpleDateFormat)o; if (!toPattern().equals(sdf.toPattern())) return false; if (!get2DigitYearStart().equals(sdf.get2DigitYearStart())) return false; if (!getDateFormatSymbols().equals(sdf.getDateFormatSymbols())) return false; return true; } /** * Formats the date input according to the format string in use, * appending to the specified StringBuffer. The input StringBuffer * is returned as output for convenience. */ public StringBuffer format(Date date, StringBuffer buffer, FieldPosition pos) { String temp; Calendar theCalendar = (Calendar) calendar.clone(); theCalendar.setTime(date); // go through vector, filling in fields where applicable, else toString Enumeration e = tokens.elements(); while (e.hasMoreElements()) { Object o = e.nextElement(); if (o instanceof FieldSizePair) { FieldSizePair p = (FieldSizePair) o; int beginIndex = buffer.length(); switch (p.field) { case ERA_FIELD: buffer.append(formatData.eras[theCalendar.get(Calendar.ERA)]); break; case YEAR_FIELD: temp = String.valueOf(theCalendar.get(Calendar.YEAR)); if (p.size < 4) buffer.append(temp.substring(temp.length()-2)); else buffer.append(temp); break; case MONTH_FIELD: if (p.size < 3) withLeadingZeros(theCalendar.get(Calendar.MONTH)+1,p.size,buffer); else if (p.size < 4) buffer.append(formatData.shortMonths[theCalendar.get(Calendar.MONTH)]); else buffer.append(formatData.months[theCalendar.get(Calendar.MONTH)]); break; case DATE_FIELD: withLeadingZeros(theCalendar.get(Calendar.DATE),p.size,buffer); break; case HOUR_OF_DAY1_FIELD: // 1-24 withLeadingZeros(((theCalendar.get(Calendar.HOUR_OF_DAY)+23)%24)+1,p.size,buffer); break; case HOUR_OF_DAY0_FIELD: // 0-23 withLeadingZeros(theCalendar.get(Calendar.HOUR_OF_DAY),p.size,buffer); break; case MINUTE_FIELD: withLeadingZeros(theCalendar.get(Calendar.MINUTE),p.size,buffer); break; case SECOND_FIELD: withLeadingZeros(theCalendar.get(Calendar.SECOND),p.size,buffer); break; case MILLISECOND_FIELD: withLeadingZeros(theCalendar.get(Calendar.MILLISECOND),p.size,buffer); break; case DAY_OF_WEEK_FIELD: if (p.size < 4) buffer.append(formatData.shortWeekdays[theCalendar.get(Calendar.DAY_OF_WEEK)]); else buffer.append(formatData.weekdays[theCalendar.get(Calendar.DAY_OF_WEEK)]); break; case DAY_OF_YEAR_FIELD: withLeadingZeros(theCalendar.get(Calendar.DAY_OF_YEAR),p.size,buffer); break; case DAY_OF_WEEK_IN_MONTH_FIELD: withLeadingZeros(theCalendar.get(Calendar.DAY_OF_WEEK_IN_MONTH),p.size,buffer); break; case WEEK_OF_YEAR_FIELD: withLeadingZeros(theCalendar.get(Calendar.WEEK_OF_YEAR),p.size,buffer); break; case WEEK_OF_MONTH_FIELD: withLeadingZeros(theCalendar.get(Calendar.WEEK_OF_MONTH),p.size,buffer); break; case AM_PM_FIELD: buffer.append(formatData.ampms[theCalendar.get(Calendar.AM_PM)]); break; case HOUR1_FIELD: // 1-12 withLeadingZeros(((theCalendar.get(Calendar.HOUR)+11)%12)+1,p.size,buffer); break; case HOUR0_FIELD: // 0-11 withLeadingZeros(theCalendar.get(Calendar.HOUR),p.size,buffer); break; case TIMEZONE_FIELD: TimeZone zone = theCalendar.getTimeZone(); boolean isDST = theCalendar.get(Calendar.DST_OFFSET) != 0; // FIXME: XXX: This should be a localized time zone. String zoneID = zone.getDisplayName(isDST, p.size > 3 ? TimeZone.LONG : TimeZone.SHORT); buffer.append(zoneID); break; default: throw new IllegalArgumentException("Illegal pattern character"); } if (pos != null && p.field == pos.getField()) { pos.setBeginIndex(beginIndex); pos.setEndIndex(buffer.length()); } } else { buffer.append(o.toString()); } } return buffer; } private void withLeadingZeros(int value, int length, StringBuffer buffer) { String valStr = String.valueOf(value); for (length -= valStr.length(); length > 0; length--) buffer.append('0'); buffer.append(valStr); } private final boolean expect (String source, ParsePosition pos, char ch) { int x = pos.getIndex(); boolean r = x < source.length() && source.charAt(x) == ch; if (r) pos.setIndex(x + 1); else pos.setErrorIndex(x); return r; } /** * This method parses the specified string into a date. * * @param dateStr The date string to parse. * @param pos The input and output parse position * * @return The parsed date, or null if the string cannot be * parsed. */ public Date parse (String dateStr, ParsePosition pos) { int fmt_index = 0; int fmt_max = pattern.length(); // We copy the Calendar because if we don't we will modify it and // then this.equals() will no longer have the desired result. Calendar theCalendar = (Calendar) calendar.clone (); theCalendar.clear(); int quote_start = -1; for (; fmt_index < fmt_max; ++fmt_index) { char ch = pattern.charAt(fmt_index); if (ch == '\'') { int index = pos.getIndex(); if (fmt_index < fmt_max - 1 && pattern.charAt(fmt_index + 1) == '\'') { if (! expect (dateStr, pos, ch)) return null; ++fmt_index; } else quote_start = quote_start < 0 ? fmt_index : -1; continue; } if (quote_start != -1 || ((ch < 'a' || ch > 'z') && (ch < 'A' || ch > 'Z'))) { if (! expect (dateStr, pos, ch)) return null; continue; } // We've arrived at a potential pattern character in the // pattern. int first = fmt_index; while (++fmt_index < fmt_max && pattern.charAt(fmt_index) == ch) ; int count = fmt_index - first; --fmt_index; // We can handle most fields automatically: most either are // numeric or are looked up in a string vector. In some cases // we need an offset. When numeric, `offset' is added to the // resulting value. When doing a string lookup, offset is the // initial index into the string array. int calendar_field; boolean is_numeric = true; String[] match = null; int offset = 0; switch (ch) { case 'd': calendar_field = Calendar.DATE; break; case 'D': calendar_field = Calendar.DAY_OF_YEAR; break; case 'F': calendar_field = Calendar.DAY_OF_WEEK_IN_MONTH; break; case 'E': is_numeric = false; offset = 1; calendar_field = Calendar.DAY_OF_WEEK; match = (count <= 3 ? formatData.getShortWeekdays() : formatData.getWeekdays()); break; case 'w': calendar_field = Calendar.WEEK_OF_YEAR; break; case 'W': calendar_field = Calendar.WEEK_OF_MONTH; break; case 'M': calendar_field = Calendar.MONTH; if (count <= 2) offset = -1; else { is_numeric = false; match = (count <= 3 ? formatData.getShortMonths() : formatData.getMonths()); } break; case 'y': calendar_field = Calendar.YEAR; if (count <= 2) offset = 1900; break; case 'K': calendar_field = Calendar.HOUR; break; case 'h': calendar_field = Calendar.HOUR; break; case 'H': calendar_field = Calendar.HOUR_OF_DAY; break; case 'k': calendar_field = Calendar.HOUR_OF_DAY; break; case 'm': calendar_field = Calendar.MINUTE; break; case 's': calendar_field = Calendar.SECOND; break; case 'S': calendar_field = Calendar.MILLISECOND; break; case 'a': is_numeric = false; calendar_field = Calendar.AM_PM; match = formatData.getAmPmStrings(); break; case 'z': // We need a special case for the timezone, because it // uses a different data structure than the other cases. is_numeric = false; // We don't actually use this; see below. calendar_field = Calendar.DST_OFFSET; String[][] zoneStrings = formatData.getZoneStrings(); int zoneCount = zoneStrings.length; int index = pos.getIndex(); boolean found_zone = false; for (int j = 0; j < zoneCount; j++) { String[] strings = zoneStrings[j]; int k; for (k = 1; k < strings.length; ++k) { if (dateStr.startsWith(strings[k], index)) break; } if (k != strings.length) { found_zone = true; TimeZone tz = TimeZone.getTimeZone (strings[0]); theCalendar.setTimeZone (tz); pos.setIndex(index + strings[k].length()); break; } } if (! found_zone) { pos.setErrorIndex(pos.getIndex()); return null; } break; default: pos.setErrorIndex(pos.getIndex()); return null; } // Compute the value we should assign to the field. int value; if (is_numeric) { numberFormat.setMinimumIntegerDigits(count); Number n = numberFormat.parse(dateStr, pos); if (pos == null || ! (n instanceof Long)) return null; value = n.intValue() + offset; } else if (match != null) { int index = pos.getIndex(); int i; for (i = offset; i < match.length; ++i) { if (dateStr.startsWith(match[i], index)) break; } if (i == match.length) { pos.setErrorIndex(index); return null; } pos.setIndex(index + match[i].length()); value = i; } else value = 0; // Assign the value and move on. if (calendar_field != Calendar.DST_OFFSET) theCalendar.set(calendar_field, value); } try { // Clear calendar fields here to force getTime() to correctly // respect DST in the timezone. theCalendar.clear (Calendar.DST_OFFSET); theCalendar.clear (Calendar.ZONE_OFFSET); return theCalendar.getTime(); } catch (IllegalArgumentException x) { pos.setErrorIndex(pos.getIndex()); return null; } } // Compute the start of the current century as defined by // get2DigitYearStart. private Date computeCenturyStart () { // Compute the current year. We assume a year has 365 days. Then // compute 80 years ago, and finally reconstruct the number of // milliseconds. We do this computation in this strange way // because it lets us easily truncate the milliseconds, seconds, // etc, which don't matter and which confuse // SimpleDateFormat.equals(). long now = System.currentTimeMillis (); now /= 365L * 24L * 60L * 60L * 1000L; now -= 80; now *= 365L * 24L * 60L * 60L * 1000L; return new Date (now); } }