import java.text.SimpleDateFormat;
import java.util.Calendar;
import java.util.Date;
+import java.util.regex.Matcher;
+import java.util.regex.Pattern;
/**
* Class to hold the timestamp of a track point
public class Timestamp
{
private boolean _valid = false;
- private long _seconds = 0L;
+ private long _milliseconds = 0L;
private String _text = null;
private String _timeText = null;
- private static DateFormat DEFAULT_DATE_FORMAT = DateFormat.getDateTimeInstance();
- private static DateFormat DEFAULT_TIME_FORMAT = DateFormat.getTimeInstance();
- private static DateFormat ISO_8601_FORMAT = new SimpleDateFormat("yyyy-MM-dd'T'HH:mm:ss'Z'");
+ private static final DateFormat DEFAULT_DATE_FORMAT = DateFormat.getDateTimeInstance();
+ private static final DateFormat DEFAULT_TIME_FORMAT = DateFormat.getTimeInstance();
+ private static final DateFormat ISO_8601_FORMAT = new SimpleDateFormat("yyyy-MM-dd'T'HH:mm:ss'Z'");
+ private static final DateFormat ISO_8601_FORMAT_NOZ = new SimpleDateFormat("yyyy-MM-dd'T'HH:mm:ss");
private static DateFormat[] ALL_DATE_FORMATS = null;
private static Calendar CALENDAR = null;
+ private static final Pattern ISO8601_FRACTIONAL_PATTERN
+ = Pattern.compile("(\\d{4})-(\\d{2})-(\\d{2})T(\\d{2}):(\\d{2}):(\\d{2})\\.(\\d{1,3})Z?");
+ private static final Pattern GENERAL_TIMESTAMP_PATTERN
+ = Pattern.compile("(\\d{4})\\D(\\d{2})\\D(\\d{2})\\D(\\d{2})\\D(\\d{2})\\D(\\d{2})");
private static long SECS_SINCE_1970 = 0L;
private static long SECS_SINCE_GARTRIP = 0L;
private static long MSECS_SINCE_1970 = 0L;
/** Specifies ISO 8601 timestamp format */
public static final int FORMAT_ISO_8601 = 2;
+ /** Identifier for the parsing strategy to use */
+ private enum ParseType
+ {
+ NONE,
+ ISO8601_FRACTIONAL,
+ LONG,
+ FIXED_FORMAT0,
+ FIXED_FORMAT1,
+ FIXED_FORMAT2,
+ FIXED_FORMAT3,
+ FIXED_FORMAT4,
+ FIXED_FORMAT5,
+ FIXED_FORMAT6,
+ GENERAL_STRING
+ }
+
+ /** Array of parse types to loop through (first one is changed to last successful type) */
+ private static ParseType[] ALL_PARSE_TYPES = {ParseType.NONE, ParseType.ISO8601_FRACTIONAL, ParseType.LONG,
+ ParseType.FIXED_FORMAT0, ParseType.FIXED_FORMAT1, ParseType.FIXED_FORMAT2, ParseType.FIXED_FORMAT3,
+ ParseType.FIXED_FORMAT4, ParseType.FIXED_FORMAT5, ParseType.FIXED_FORMAT6, ParseType.GENERAL_STRING};
+
// Static block to initialise offsets
static
{
new SimpleDateFormat("HH:mm:ss dd MMM yyyy"),
new SimpleDateFormat("dd MMM yyyy HH:mm:ss"),
new SimpleDateFormat("yyyy MMM dd HH:mm:ss"),
- ISO_8601_FORMAT
+ ISO_8601_FORMAT, ISO_8601_FORMAT_NOZ
};
}
*/
public Timestamp(String inString)
{
- // TODO: Does it really help to store timestamps in seconds rather than ms?
+ _valid = false;
if (inString != null && !inString.equals(""))
{
- // Try to parse into a long
- try
+ // Try each of the parse types in turn
+ for (ParseType type : ALL_PARSE_TYPES)
{
- long rawValue = Long.parseLong(inString.trim());
- // check for each format possibility and pick nearest
- long diff1 = Math.abs(SECS_SINCE_1970 - rawValue);
- long diff2 = Math.abs(MSECS_SINCE_1970 - rawValue);
- long diff3 = Math.abs(MSECS_SINCE_1990 - rawValue);
- long diff4 = Math.abs(SECS_SINCE_GARTRIP - rawValue);
-
- // Start off with "seconds since 1970" format
- long smallestDiff = diff1;
- _seconds = rawValue;
- // Now check millis since 1970
- if (diff2 < smallestDiff)
+ if (parseString(inString, type))
{
- // milliseconds since 1970
- _seconds = rawValue / 1000L;
- smallestDiff = diff2;
+ ALL_PARSE_TYPES[0] = type;
+ _valid = true;
+ return;
}
- // Now millis since 1990
- if (diff3 < smallestDiff)
+ }
+ }
+ }
+
+ /**
+ * Try to parse the given string in the specified way
+ * @param inString String to parse
+ * @param inType parse type to use
+ * @return true if successful
+ */
+ private boolean parseString(String inString, ParseType inType)
+ {
+ if (inString == null || inString.equals("")) {
+ return false;
+ }
+ switch (inType)
+ {
+ case NONE: return false;
+ case LONG:
+ // Try to parse into a long
+ try
{
- // milliseconds since 1990
- _seconds = rawValue / 1000L + TWENTY_YEARS_IN_SECS;
- smallestDiff = diff3;
+ long rawValue = Long.parseLong(inString.trim());
+ _milliseconds = getMilliseconds(rawValue);
+ return true;
}
- // Lastly, check gartrip offset
- if (diff4 < smallestDiff)
+ catch (NumberFormatException nfe)
+ {}
+ break;
+
+ case ISO8601_FRACTIONAL:
+ final Matcher fmatcher = ISO8601_FRACTIONAL_PATTERN.matcher(inString);
+ if (fmatcher.matches())
{
- // seconds since gartrip offset
- _seconds = rawValue + GARTRIP_OFFSET;
+ try {
+ _milliseconds = getMilliseconds(Integer.parseInt(fmatcher.group(1)), // year
+ Integer.parseInt(fmatcher.group(2)), // month
+ Integer.parseInt(fmatcher.group(3)), // day
+ Integer.parseInt(fmatcher.group(4)), // hour
+ Integer.parseInt(fmatcher.group(5)), // minute
+ Integer.parseInt(fmatcher.group(6)), // second
+ fmatcher.group(7)); // fractional seconds
+ return true;
+ }
+ catch (NumberFormatException nfe) {}
}
- _valid = true;
- }
- catch (NumberFormatException nfe)
- {
- // String is not a long, so try a date/time string instead
- // try each of the date formatters in turn
- Date date = null;
- for (int i=0; i<ALL_DATE_FORMATS.length && !_valid; i++)
+ break;
+
+ case FIXED_FORMAT0: return parseString(inString, ALL_DATE_FORMATS[0]);
+ case FIXED_FORMAT1: return parseString(inString, ALL_DATE_FORMATS[1]);
+ case FIXED_FORMAT2: return parseString(inString, ALL_DATE_FORMATS[2]);
+ case FIXED_FORMAT3: return parseString(inString, ALL_DATE_FORMATS[3]);
+ case FIXED_FORMAT4: return parseString(inString, ALL_DATE_FORMATS[4]);
+ case FIXED_FORMAT5: return parseString(inString, ALL_DATE_FORMATS[5]);
+ case FIXED_FORMAT6: return parseString(inString, ALL_DATE_FORMATS[6]);
+
+ case GENERAL_STRING:
+ if (inString.length() == 19)
{
- try
+ final Matcher matcher = GENERAL_TIMESTAMP_PATTERN.matcher(inString);
+ if (matcher.matches())
{
- date = ALL_DATE_FORMATS[i].parse(inString);
- CALENDAR.setTime(date);
- _seconds = CALENDAR.getTimeInMillis() / 1000L;
- _valid = true;
+ try {
+ _milliseconds = getMilliseconds(Integer.parseInt(matcher.group(1)),
+ Integer.parseInt(matcher.group(2)),
+ Integer.parseInt(matcher.group(3)),
+ Integer.parseInt(matcher.group(4)),
+ Integer.parseInt(matcher.group(5)),
+ Integer.parseInt(matcher.group(6)),
+ null); // no fractions of a second
+ return true;
+ }
+ catch (NumberFormatException nfe2) {} // parse shouldn't fail if matcher matched
}
- catch (ParseException e) {}
}
- }
+ return false;
+ }
+ return false;
+ }
+
+
+ /**
+ * Try to parse the given string with the given date format
+ * @param inString String to parse
+ * @param inDateFormat Date format to use
+ * @return true if successful
+ */
+ private boolean parseString(String inString, DateFormat inDateFormat)
+ {
+ try
+ {
+ Date date = inDateFormat.parse(inString);
+ CALENDAR.setTime(date);
+ _milliseconds = CALENDAR.getTimeInMillis();
+ return true;
}
+ catch (ParseException e) {}
+ return false;
}
*/
public Timestamp(int inYear, int inMonth, int inDay, int inHour, int inMinute, int inSecond)
{
- Calendar cal = Calendar.getInstance();
- cal.set(Calendar.YEAR, inYear);
- cal.set(Calendar.MONTH, inMonth - 1);
- cal.set(Calendar.DAY_OF_MONTH, inDay);
- cal.set(Calendar.HOUR_OF_DAY, inHour);
- cal.set(Calendar.MINUTE, inMinute);
- cal.set(Calendar.SECOND, inSecond);
- cal.set(Calendar.MILLISECOND, 0);
- _seconds = cal.getTimeInMillis() / 1000;
+ _milliseconds = getMilliseconds(inYear, inMonth, inDay, inHour, inMinute, inSecond, null);
_valid = true;
}
*/
public Timestamp(long inMillis)
{
- _seconds = inMillis / 1000;
+ _milliseconds = inMillis;
_valid = true;
}
+ /**
+ * Convert the given timestamp parameters into a number of milliseconds
+ * @param inYear year
+ * @param inMonth month, beginning with 1
+ * @param inDay day of month, beginning with 1
+ * @param inHour hour of day, 0-24
+ * @param inMinute minute
+ * @param inSecond seconds
+ * @param inFraction fractions of a second
+ * @return number of milliseconds
+ */
+ private static long getMilliseconds(int inYear, int inMonth, int inDay,
+ int inHour, int inMinute, int inSecond, String inFraction)
+ {
+ Calendar cal = Calendar.getInstance();
+ cal.set(Calendar.YEAR, inYear);
+ cal.set(Calendar.MONTH, inMonth - 1);
+ cal.set(Calendar.DAY_OF_MONTH, inDay);
+ cal.set(Calendar.HOUR_OF_DAY, inHour);
+ cal.set(Calendar.MINUTE, inMinute);
+ cal.set(Calendar.SECOND, inSecond);
+ int millis = 0;
+ if (inFraction != null)
+ {
+ try {
+ int frac = Integer.parseInt(inFraction);
+ final int fracLen = inFraction.length();
+ switch (fracLen) {
+ case 1: millis = frac * 100; break;
+ case 2: millis = frac * 10; break;
+ case 3: millis = frac; break;
+ }
+ }
+ catch (NumberFormatException nfe) {} // ignore errors, millis stay at 0
+ }
+ cal.set(Calendar.MILLISECOND, millis);
+ return cal.getTimeInMillis();
+ }
+
+ /**
+ * Convert the given long parameters into a number of millisseconds
+ * @param inRawValue long value representing seconds / milliseconds
+ * @return number of milliseconds
+ */
+ private static long getMilliseconds(long inRawValue)
+ {
+ // check for each format possibility and pick nearest
+ long diff1 = Math.abs(SECS_SINCE_1970 - inRawValue);
+ long diff2 = Math.abs(MSECS_SINCE_1970 - inRawValue);
+ long diff3 = Math.abs(MSECS_SINCE_1990 - inRawValue);
+ long diff4 = Math.abs(SECS_SINCE_GARTRIP - inRawValue);
+
+ // Start off with "seconds since 1970" format
+ long smallestDiff = diff1;
+ long millis = inRawValue * 1000;
+ // Now check millis since 1970
+ if (diff2 < smallestDiff)
+ {
+ // milliseconds since 1970
+ millis = inRawValue;
+ smallestDiff = diff2;
+ }
+ // Now millis since 1990
+ if (diff3 < smallestDiff)
+ {
+ // milliseconds since 1990
+ millis = inRawValue + TWENTY_YEARS_IN_SECS * 1000L;
+ smallestDiff = diff3;
+ }
+ // Lastly, check gartrip offset
+ if (diff4 < smallestDiff)
+ {
+ // seconds since gartrip offset
+ millis = (inRawValue + GARTRIP_OFFSET) * 1000L;
+ }
+ return millis;
+ }
+
/**
* @return true if timestamp is valid
*/
/**
* @param inOther other Timestamp
- * @return true if this one is after the other
+ * @return true if this one is at least a second after the other
*/
public boolean isAfter(Timestamp inOther)
{
- return _seconds > inOther._seconds;
+ return getSecondsSince(inOther) > 0L;
}
/**
*/
public long getSecondsSince(Timestamp inOther)
{
- return _seconds - inOther._seconds;
+ return (_milliseconds - inOther._milliseconds) / 1000L;
+ }
+
+ /**
+ * Calculate the difference between two Timestamps in milliseconds
+ * @param inOther other, earlier Timestamp
+ * @return number of millisseconds since other timestamp
+ */
+ public long getMillisecondsSince(Timestamp inOther)
+ {
+ return _milliseconds - inOther._milliseconds;
+ }
+
+ /**
+ * @param inOther other timestamp to compare
+ * @return true if they're equal to the nearest second
+ */
+ public boolean isEqual(Timestamp inOther)
+ {
+ return getSecondsSince(inOther) == 0L;
+ }
+
+ /**
+ * @param inOther other Timestamp
+ * @return true if this one is before the other
+ */
+ public boolean isBefore(Timestamp inOther)
+ {
+ return getSecondsSince(inOther) < 0L;
}
/**
*/
public void addOffset(long inOffset)
{
- _seconds += inOffset;
+ _milliseconds += (inOffset * 1000L);
_text = null;
}
*/
public Timestamp createPlusOffset(TimeDifference inOffset)
{
- return new Timestamp((_seconds + inOffset.getTotalSeconds()) * 1000L);
+ return createPlusOffset(inOffset.getTotalSeconds());
+ }
+
+ /**
+ * Add the given number of seconds to this Timestamp
+ * @param inSeconds number of seconds to add
+ * @return new Timestamp object
+ */
+ public Timestamp createPlusOffset(long inSeconds)
+ {
+ return new Timestamp(_milliseconds + (inSeconds * 1000L));
}
*/
public Timestamp createMinusOffset(TimeDifference inOffset)
{
- return new Timestamp((_seconds - inOffset.getTotalSeconds()) * 1000L);
+ return new Timestamp(_milliseconds - (inOffset.getTotalSeconds() * 1000L));
}
*/
public String getText(int inFormat)
{
+ if (!_valid) {return "";}
if (inFormat == FORMAT_ISO_8601) {
return format(ISO_8601_FORMAT);
}
- if (_text == null)
- {
- if (_valid) {
- _text = format(DEFAULT_DATE_FORMAT);
- }
- else _text = "";
+ if (_text == null) {
+ _text = (_valid?format(DEFAULT_DATE_FORMAT):"");
}
return _text;
}
*/
private String format(DateFormat inFormat)
{
- CALENDAR.setTimeInMillis(_seconds * 1000L);
+ CALENDAR.setTimeInMillis(_milliseconds);
return inFormat.format(CALENDAR.getTime());
}
public Calendar getCalendar()
{
Calendar cal = Calendar.getInstance();
- cal.setTimeInMillis(_seconds * 1000L);
+ cal.setTimeInMillis(_milliseconds);
return cal;
}
}