Ejemplo n.º 1
0
 /**
  * Add a duration to a dateTime
  *
  * @param duration the duration to be added (may be negative)
  * @return the new date
  * @throws net.sf.saxon.trans.XPathException if the duration is an xs:duration, as distinct from a
  *     subclass thereof
  */
 public CalendarValue add(DurationValue duration) throws XPathException {
   if (duration instanceof DayTimeDurationValue) {
     long microseconds = ((DayTimeDurationValue) duration).getLengthInMicroseconds();
     BigDecimal seconds =
         BigDecimal.valueOf(microseconds)
             .divide(DecimalValue.BIG_DECIMAL_ONE_MILLION, 6, BigDecimal.ROUND_HALF_EVEN);
     BigDecimal julian = toJulianInstant();
     julian = julian.add(seconds);
     DateTimeValue dt = fromJulianInstant(julian);
     dt.setTimezoneInMinutes(getTimezoneInMinutes());
     return dt;
   } else if (duration instanceof YearMonthDurationValue) {
     int months = ((YearMonthDurationValue) duration).getLengthInMonths();
     int m = (month - 1) + months;
     int y = year + m / 12;
     m = m % 12;
     if (m < 0) {
       m += 12;
       y -= 1;
     }
     m++;
     int d = day;
     while (!DateValue.isValidDate(y, m, d)) {
       d -= 1;
     }
     return new DateTimeValue(
         y, (byte) m, (byte) d, hour, minute, second, microsecond, getTimezoneInMinutes());
   } else {
     XPathException err =
         new XPathException(
             "DateTime arithmetic is not supported on xs:duration, only on its subtypes");
     err.setIsTypeError(true);
     throw err;
   }
 }
Ejemplo n.º 2
0
 /**
  * Make a copy of this date, time, or dateTime value, but with a new type label
  *
  * @param typeLabel the type label to be attached to the new copy. It is the caller's
  *     responsibility to ensure that the value actually conforms to the rules for this type.
  */
 public AtomicValue copyAsSubType(AtomicType typeLabel) {
   DateTimeValue v =
       new DateTimeValue(
           year, month, day, hour, minute, second, microsecond, getTimezoneInMinutes());
   v.typeLabel = typeLabel;
   return v;
 }
Ejemplo n.º 3
0
  /**
   * Factory method: create a dateTime value given a date and a time.
   *
   * @param date the date
   * @param time the time
   * @return the dateTime with the given components. If either component is null, returns null
   * @throws XPathException if the timezones are both present and inconsistent
   */
  public static DateTimeValue makeDateTimeValue(DateValue date, TimeValue time)
      throws XPathException {
    if (date == null || time == null) {
      return null;
    }
    DayTimeDurationValue tz1 = (DayTimeDurationValue) date.getComponent(Component.TIMEZONE);
    DayTimeDurationValue tz2 = (DayTimeDurationValue) time.getComponent(Component.TIMEZONE);
    boolean zoneSpecified = (tz1 != null || tz2 != null);
    if (tz1 != null && tz2 != null && !tz1.equals(tz2)) {
      XPathException err = new XPathException("Supplied date and time are in different timezones");
      err.setErrorCode("FORG0008");
      throw err;
    }

    DateTimeValue v = new DateTimeValue();
    v.year = (int) ((Int64Value) date.getComponent(Component.YEAR_ALLOWING_ZERO)).longValue();
    v.month = (byte) ((Int64Value) date.getComponent(Component.MONTH)).longValue();
    v.day = (byte) ((Int64Value) date.getComponent(Component.DAY)).longValue();
    v.hour = (byte) ((Int64Value) time.getComponent(Component.HOURS)).longValue();
    v.minute = (byte) ((Int64Value) time.getComponent(Component.MINUTES)).longValue();
    final BigDecimal secs = ((DecimalValue) time.getComponent(Component.SECONDS)).getDecimalValue();
    v.second = (byte) secs.intValue();
    v.microsecond = secs.multiply(BigDecimal.valueOf(1000000)).intValue() % 1000000;
    if (zoneSpecified) {
      if (tz1 == null) {
        tz1 = tz2;
      }
      v.setTimezoneInMinutes((int) (tz1.getLengthInMicroseconds() / 60000000));
    }
    v.typeLabel = BuiltInAtomicType.DATE_TIME;
    return v;
  }
Ejemplo n.º 4
0
 /**
  * Compare the value to another dateTime value, following the XPath comparison semantics
  *
  * @param other The other dateTime value
  * @param context XPath dynamic evaluation context
  * @return negative value if this one is the earler, 0 if they are chronologically equal, positive
  *     value if this one is the later. For this purpose, dateTime values with an unknown timezone
  *     are considered to be values in the implicit timezone (the Comparable interface requires a
  *     total ordering).
  * @throws ClassCastException if the other value is not a DateTimeValue (the parameter is declared
  *     as CalendarValue to satisfy the interface)
  * @throws NoDynamicContextException if the implicit timezone is needed and is not available
  */
 public int compareTo(CalendarValue other, XPathContext context) throws NoDynamicContextException {
   if (!(other instanceof DateTimeValue)) {
     throw new ClassCastException("DateTime values are not comparable to " + other.getClass());
   }
   DateTimeValue v2 = (DateTimeValue) other;
   if (getTimezoneInMinutes() == v2.getTimezoneInMinutes()) {
     // both values are in the same timezone (explicitly or implicitly)
     if (year != v2.year) {
       return IntegerValue.signum(year - v2.year);
     }
     if (month != v2.month) {
       return IntegerValue.signum(month - v2.month);
     }
     if (day != v2.day) {
       return IntegerValue.signum(day - v2.day);
     }
     if (hour != v2.hour) {
       return IntegerValue.signum(hour - v2.hour);
     }
     if (minute != v2.minute) {
       return IntegerValue.signum(minute - v2.minute);
     }
     if (second != v2.second) {
       return IntegerValue.signum(second - v2.second);
     }
     if (microsecond != v2.microsecond) {
       return IntegerValue.signum(microsecond - v2.microsecond);
     }
     return 0;
   }
   return normalize(context).compareTo(v2.normalize(context), context);
 }
Ejemplo n.º 5
0
 /**
  * Normalize the date and time to be in timezone Z.
  *
  * @param cc used to supply the implicit timezone, used when the value has no explicit timezone
  * @return in general, a new DateTimeValue in timezone Z, representing the same instant in time.
  *     Returns the original DateTimeValue if this is already in timezone Z.
  * @throws NoDynamicContextException if the implicit timezone is needed and is not available
  */
 public DateTimeValue normalize(XPathContext cc) throws NoDynamicContextException {
   if (hasTimezone()) {
     return (DateTimeValue) adjustTimezone(0);
   } else {
     DateTimeValue dt = (DateTimeValue) copyAsSubType(null);
     dt.setTimezoneInMinutes(cc.getImplicitTimezone());
     return (DateTimeValue) dt.adjustTimezone(0);
   }
 }
Ejemplo n.º 6
0
  /**
   * Return a new dateTime with the same normalized value, but in a different timezone.
   *
   * @param timezone the new timezone offset, in minutes
   * @return the date/time in the new timezone. This will be a new DateTimeValue unless no change
   *     was required to the original value
   */
  public CalendarValue adjustTimezone(int timezone) {
    if (!hasTimezone()) {
      CalendarValue in = (CalendarValue) copyAsSubType(typeLabel);
      in.setTimezoneInMinutes(timezone);
      return in;
    }
    int oldtz = getTimezoneInMinutes();
    if (oldtz == timezone) {
      return this;
    }
    int tz = timezone - oldtz;
    int h = hour;
    int mi = minute;
    mi += tz;
    if (mi < 0 || mi > 59) {
      h += Math.floor(mi / 60.0);
      mi = (mi + 60 * 24) % 60;
    }

    if (h >= 0 && h < 24) {
      return new DateTimeValue(
          year, month, day, (byte) h, (byte) mi, second, microsecond, timezone);
    }

    // Following code is designed to handle the corner case of adjusting from -14:00 to +14:00 or
    // vice versa, which can cause a change of two days in the date
    DateTimeValue dt = this;
    while (h < 0) {
      h += 24;
      DateValue t = DateValue.yesterday(dt.getYear(), dt.getMonth(), dt.getDay());
      dt =
          new DateTimeValue(
              t.getYear(),
              t.getMonth(),
              t.getDay(),
              (byte) h,
              (byte) mi,
              second,
              microsecond,
              timezone);
    }
    if (h > 23) {
      h -= 24;
      DateValue t = DateValue.tomorrow(year, month, day);
      return new DateTimeValue(
          t.getYear(),
          t.getMonth(),
          t.getDay(),
          (byte) h,
          (byte) mi,
          second,
          microsecond,
          timezone);
    }
    return dt;
  }
Ejemplo n.º 7
0
  /**
   * Factory method: create a dateTime value from a supplied string, in ISO 8601 format
   *
   * @param s a string in the lexical space of xs:dateTime
   * @return either a DateTimeValue representing the xs:dateTime supplied, or a ValidationFailure if
   *     the lexical value was invalid
   */
  public static ConversionResult makeDateTimeValue(CharSequence s) {
    // input must have format [-]yyyy-mm-ddThh:mm:ss[.fff*][([+|-]hh:mm | Z)]
    DateTimeValue dt = new DateTimeValue();
    StringTokenizer tok =
        new StringTokenizer(Whitespace.trimWhitespace(s).toString(), "-:.+TZ", true);

    if (!tok.hasMoreElements()) {
      return badDate("too short", s);
    }
    String part = (String) tok.nextElement();
    int era = +1;
    if ("+".equals(part)) {
      return badDate("Date must not start with '+' sign", s);
    } else if ("-".equals(part)) {
      era = -1;
      if (!tok.hasMoreElements()) {
        return badDate("No year after '-'", s);
      }
      part = (String) tok.nextElement();
    }
    int value = DurationValue.simpleInteger(part);
    if (value < 0) {
      return badDate("Non-numeric year component", s);
    }
    dt.year = value * era;
    if (part.length() < 4) {
      return badDate("Year is less than four digits", s);
    }
    if (part.length() > 4 && part.charAt(0) == '0') {
      return badDate("When year exceeds 4 digits, leading zeroes are not allowed", s);
    }
    if (dt.year == 0) {
      return badDate("Year zero is not allowed", s);
    }
    if (era < 0) {
      dt.year++; // internal representation allows a year zero.
    }
    if (!tok.hasMoreElements()) {
      return badDate("Too short", s);
    }
    if (!"-".equals(tok.nextElement())) {
      return badDate("Wrong delimiter after year", s);
    }

    if (!tok.hasMoreElements()) {
      return badDate("Too short", s);
    }
    part = (String) tok.nextElement();
    if (part.length() != 2) {
      return badDate("Month must be two digits", s);
    }
    value = DurationValue.simpleInteger(part);
    if (value < 0) {
      return badDate("Non-numeric month component", s);
    }
    dt.month = (byte) value;
    if (dt.month < 1 || dt.month > 12) {
      return badDate("Month is out of range", s);
    }

    if (!tok.hasMoreElements()) {
      return badDate("Too short", s);
    }
    if (!"-".equals(tok.nextElement())) {
      return badDate("Wrong delimiter after month", s);
    }
    if (!tok.hasMoreElements()) {
      return badDate("Too short", s);
    }
    part = (String) tok.nextElement();
    if (part.length() != 2) {
      return badDate("Day must be two digits", s);
    }
    value = DurationValue.simpleInteger(part);
    if (value < 0) {
      return badDate("Non-numeric day component", s);
    }
    dt.day = (byte) value;
    if (dt.day < 1 || dt.day > 31) {
      return badDate("Day is out of range", s);
    }

    if (!tok.hasMoreElements()) {
      return badDate("Too short", s);
    }
    if (!"T".equals(tok.nextElement())) {
      return badDate("Wrong delimiter after day", s);
    }

    if (!tok.hasMoreElements()) {
      return badDate("Too short", s);
    }
    part = (String) tok.nextElement();
    if (part.length() != 2) {
      return badDate("Hour must be two digits", s);
    }
    value = DurationValue.simpleInteger(part);
    if (value < 0) {
      return badDate("Non-numeric hour component", s);
    }
    dt.hour = (byte) value;
    if (dt.hour > 24) {
      return badDate("Hour is out of range", s);
    }

    if (!tok.hasMoreElements()) {
      return badDate("Too short", s);
    }
    if (!":".equals(tok.nextElement())) {
      return badDate("Wrong delimiter after hour", s);
    }

    if (!tok.hasMoreElements()) {
      return badDate("Too short", s);
    }
    part = (String) tok.nextElement();
    if (part.length() != 2) {
      return badDate("Minute must be two digits", s);
    }
    value = DurationValue.simpleInteger(part);
    if (value < 0) {
      return badDate("Non-numeric minute component", s);
    }
    dt.minute = (byte) value;
    if (dt.minute > 59) {
      return badDate("Minute is out of range", s);
    }
    if (dt.hour == 24 && dt.minute != 0) {
      return badDate("If hour is 24, minute must be 00", s);
    }
    if (!tok.hasMoreElements()) {
      return badDate("Too short", s);
    }
    if (!":".equals(tok.nextElement())) {
      return badDate("Wrong delimiter after minute", s);
    }

    if (!tok.hasMoreElements()) {
      return badDate("Too short", s);
    }
    part = (String) tok.nextElement();
    if (part.length() != 2) {
      return badDate("Second must be two digits", s);
    }
    value = DurationValue.simpleInteger(part);
    if (value < 0) {
      return badDate("Non-numeric second component", s);
    }
    dt.second = (byte) value;

    if (dt.second > 59) {
      return badDate("Second is out of range", s);
    }
    if (dt.hour == 24 && dt.second != 0) {
      return badDate("If hour is 24, second must be 00", s);
    }

    int tz = 0;

    int state = 0;
    while (tok.hasMoreElements()) {
      if (state == 9) {
        return badDate("Characters after the end", s);
      }
      String delim = (String) tok.nextElement();
      if (".".equals(delim)) {
        if (state != 0) {
          return badDate("Decimal separator occurs twice", s);
        }
        if (!tok.hasMoreElements()) {
          return badDate("Decimal point must be followed by digits", s);
        }
        part = (String) tok.nextElement();
        value = DurationValue.simpleInteger(part);
        if (value < 0) {
          return badDate("Non-numeric fractional seconds component", s);
        }
        double fractionalSeconds = Double.parseDouble('.' + part);
        dt.microsecond = (int) (Math.round(fractionalSeconds * 1000000));
        if (dt.hour == 24 && dt.microsecond != 0) {
          return badDate("If hour is 24, fractional seconds must be 0", s);
        }
        state = 1;
      } else if ("Z".equals(delim)) {
        if (state > 1) {
          return badDate("Z cannot occur here", s);
        }
        tz = 0;
        state = 9; // we've finished
        dt.setTimezoneInMinutes(0);
      } else if ("+".equals(delim) || "-".equals(delim)) {
        if (state > 1) {
          return badDate(delim + " cannot occur here", s);
        }
        state = 2;
        if (!tok.hasMoreElements()) {
          return badDate("Missing timezone", s);
        }
        part = (String) tok.nextElement();
        if (part.length() != 2) {
          return badDate("Timezone hour must be two digits", s);
        }
        value = DurationValue.simpleInteger(part);
        if (value < 0) {
          return badDate("Non-numeric timezone hour component", s);
        }
        tz = value;
        if (tz > 14) {
          return badDate("Timezone is out of range (-14:00 to +14:00)", s);
        }
        tz *= 60;

        if ("-".equals(delim)) {
          tz = -tz;
        }

      } else if (":".equals(delim)) {
        if (state != 2) {
          return badDate("Misplaced ':'", s);
        }
        state = 9;
        part = (String) tok.nextElement();
        value = DurationValue.simpleInteger(part);
        if (value < 0) {
          return badDate("Non-numeric timezone minute component", s);
        }
        int tzminute = value;
        if (part.length() != 2) {
          return badDate("Timezone minute must be two digits", s);
        }
        if (tzminute > 59) {
          return badDate("Timezone minute is out of range", s);
        }
        if (tz < 0) {
          tzminute = -tzminute;
        }
        if (Math.abs(tz) == 14 * 60 && tzminute != 0) {
          return badDate("Timezone is out of range (-14:00 to +14:00)", s);
        }
        tz += tzminute;
        dt.setTimezoneInMinutes(tz);
      } else {
        return badDate("Timezone format is incorrect", s);
      }
    }

    if (state == 2 || state == 3) {
      return badDate("Timezone incomplete", s);
    }

    boolean midnight = false;
    if (dt.hour == 24) {
      dt.hour = 0;
      midnight = true;
    }

    // Check that this is a valid calendar date
    if (!DateValue.isValidDate(dt.year, dt.month, dt.day)) {
      return badDate("Non-existent date", s);
    }

    // Adjust midnight to 00:00:00 on the next day
    if (midnight) {
      DateValue t = DateValue.tomorrow(dt.year, dt.month, dt.day);
      dt.year = t.getYear();
      dt.month = t.getMonth();
      dt.day = t.getDay();
    }

    dt.typeLabel = BuiltInAtomicType.DATE_TIME;
    return dt;
  }
Ejemplo n.º 8
0
    // Rules from XML Schema Part 2
    public int compareTo(Object o) {
      if (o instanceof DateTimeComparable) {
        DateTimeValue dt0 = DateTimeValue.this;
        DateTimeValue dt1 = ((DateTimeComparable) o).asDateTimeValue();
        if (dt0.hasTimezone()) {
          if (dt1.hasTimezone()) {
            dt0 = (DateTimeValue) dt0.adjustTimezone(0);
            dt1 = (DateTimeValue) dt1.adjustTimezone(0);
            return dt0.compareTo(dt1);
          } else {
            DateTimeValue dt1max = (DateTimeValue) dt1.adjustTimezone(14 * 60);
            if (dt0.compareTo(dt1max) < 0) {
              return -1;
            }
            DateTimeValue dt1min = (DateTimeValue) dt1.adjustTimezone(-14 * 60);
            if (dt0.compareTo(dt1min) > 0) {
              return +1;
            }
            return INDETERMINATE_ORDERING;
          }
        } else {
          if (dt1.hasTimezone()) {
            DateTimeValue dt0min = (DateTimeValue) dt0.adjustTimezone(-14 * 60);
            if (dt0min.compareTo(dt1) < 0) {
              return -1;
            }
            DateTimeValue dt0max = (DateTimeValue) dt0.adjustTimezone(14 * 60);
            if (dt0max.compareTo(dt1) > 0) {
              return +1;
            }
            return INDETERMINATE_ORDERING;
          } else {
            dt0 = (DateTimeValue) dt0.adjustTimezone(0);
            dt1 = (DateTimeValue) dt1.adjustTimezone(0);
            return dt0.compareTo(dt1);
          }
        }

      } else {
        return INDETERMINATE_ORDERING;
      }
    }