public void writeTo(DataOutput out) throws IOException { out.writeByte(iMode); out.writeByte(iMonthOfYear); out.writeByte(iDayOfMonth); out.writeByte(iDayOfWeek); out.writeBoolean(iAdvance); writeMillis(out, iMillisOfDay); }
public void writeTo(DataOutput out) throws IOException { out.writeByte(iMode); out.writeByte(iMonthOfYear); out.writeByte(iDayOfMonth); out.writeByte(iDayOfWeek); out.writeBoolean(iAdvance); writeMillis(out, iMillisOfDay); }
public void writeTo(DataOutput out) throws IOException { iOfYear.writeTo(out); out.writeUTF(iNameKey); writeMillis(out, iSaveMillis); }
public void writeTo(DataOutput out) throws IOException { iOfYear.writeTo(out); out.writeUTF(iNameKey); writeMillis(out, iSaveMillis); }
writeMillis(out, iTransitions[i]); writeMillis(out, iWallOffsets[i]); writeMillis(out, iStandardOffsets[i]);
public void writeTo(DataOutput out) throws IOException { writeMillis(out, iStandardOffset); iStartRecurrence.writeTo(out); iEndRecurrence.writeTo(out); }
writeMillis(out, iTransitions[i]); writeMillis(out, iWallOffsets[i]); writeMillis(out, iStandardOffsets[i]);
public void writeTo(DataOutput out) throws IOException { writeMillis(out, iStandardOffset); iStartRecurrence.writeTo(out); iEndRecurrence.writeTo(out); }
/** * Encodes a built DateTimeZone to the given stream. Call readFrom to * decode the data into a DateTimeZone object. * * @param out the output stream to receive the encoded DateTimeZone * @since 1.5 (parameter added) */ public void writeTo(String zoneID, DataOutput out) throws IOException { // pass false so zone id is not written out DateTimeZone zone = toDateTimeZone(zoneID, false); if (zone instanceof FixedDateTimeZone) { out.writeByte('F'); // 'F' for fixed out.writeUTF(zone.getNameKey(0)); writeMillis(out, zone.getOffset(0)); writeMillis(out, zone.getStandardOffset(0)); } else { if (zone instanceof CachedDateTimeZone) { out.writeByte('C'); // 'C' for cached, precalculated zone = ((CachedDateTimeZone)zone).getUncachedZone(); } else { out.writeByte('P'); // 'P' for precalculated, uncached } ((PrecalculatedZone)zone).writeTo(out); } }
/** * Encodes a built DateTimeZone to the given stream. Call readFrom to * decode the data into a DateTimeZone object. * * @param out the output stream to receive the encoded DateTimeZone * @since 1.5 (parameter added) */ public void writeTo(String zoneID, DataOutput out) throws IOException { // pass false so zone id is not written out DateTimeZone zone = toDateTimeZone(zoneID, false); if (zone instanceof FixedDateTimeZone) { out.writeByte('F'); // 'F' for fixed out.writeUTF(zone.getNameKey(0)); writeMillis(out, zone.getOffset(0)); writeMillis(out, zone.getStandardOffset(0)); } else { if (zone instanceof CachedDateTimeZone) { out.writeByte('C'); // 'C' for cached, precalculated zone = ((CachedDateTimeZone)zone).getUncachedZone(); } else { out.writeByte('P'); // 'P' for precalculated, uncached } ((PrecalculatedZone)zone).writeTo(out); } }
public void writeTo(DataOutput out) throws IOException { out.writeByte(iMode); out.writeByte(iMonthOfYear); out.writeByte(iDayOfMonth); out.writeByte(iDayOfWeek); out.writeBoolean(iAdvance); writeMillis(out, iMillisOfDay); }
public void writeTo(DataOutput out) throws IOException { iOfYear.writeTo(out); out.writeUTF(iNameKey); writeMillis(out, iSaveMillis); }
writeMillis(out, iTransitions[i]); writeMillis(out, iWallOffsets[i]); writeMillis(out, iStandardOffsets[i]);
public void writeTo(DataOutput out) throws IOException { writeMillis(out, iStandardOffset); iStartRecurrence.writeTo(out); iEndRecurrence.writeTo(out); }
/** * Encodes a built DateTimeZone to the given stream. Call readFrom to * decode the data into a DateTimeZone object. * * @param out the output stream to receive the encoded DateTimeZone * @since 1.5 (parameter added) */ public void writeTo(String zoneID, DataOutput out) throws IOException { // pass false so zone id is not written out DateTimeZone zone = toDateTimeZone(zoneID, false); if (zone instanceof FixedDateTimeZone) { out.writeByte('F'); // 'F' for fixed out.writeUTF(zone.getNameKey(0)); writeMillis(out, zone.getOffset(0)); writeMillis(out, zone.getStandardOffset(0)); } else { if (zone instanceof CachedDateTimeZone) { out.writeByte('C'); // 'C' for cached, precalculated zone = ((CachedDateTimeZone)zone).getUncachedZone(); } else { out.writeByte('P'); // 'P' for precalculated, uncached } ((PrecalculatedZone)zone).writeTo(out); } }
public void writeTo(DataOutput out) throws IOException { out.writeByte(iMode); out.writeByte(iMonthOfYear); out.writeByte(iDayOfMonth); out.writeByte(iDayOfWeek); out.writeBoolean(iAdvance); writeMillis(out, iMillisOfDay); }
public void writeTo(DataOutput out) throws IOException { iOfYear.writeTo(out); out.writeUTF(iNameKey); writeMillis(out, iSaveMillis); }
public void writeTo(DataOutput out) throws IOException { iOfYear.writeTo(out); out.writeUTF(iNameKey); writeMillis(out, iSaveMillis); }
public void writeTo(DataOutput out) throws IOException { iOfYear.writeTo(out); out.writeUTF(iNameKey); writeMillis(out, iSaveMillis); }
public void writeTo(DataOutput out) throws IOException { writeMillis(out, iStandardOffset); iStartRecurrence.writeTo(out); iEndRecurrence.writeTo(out); }