C# (CSharp) GCAL.Base GPSun.SunCalc示例

示例#1

文件： GPAstroData.cs 项目： vijeetgv/GCAL

        /*********************************************************************/
        /*                                                                   */
        /* Calculation of tithi, paksa, naksatra, yoga for given             */
        /*    Gregorian date                                                 */
        /*                                                                   */
        /*                                                                   */
        /*********************************************************************/

        public int calculateDayData(GPGregorianTime aDate, GPLocationProvider earth)
        {
            double          d;
            GPAstroData     day  = this;
            GPGregorianTime date = new GPGregorianTime(aDate);

            //	SUNDATA sun;

            // sun position on sunrise on that day
            sun.SunCalc(date, earth);
            date.setDayHours(sun.getSunriseDayHours());

            // date.shour is [0..1] time of sunrise in local timezone time
            jdate = date.getJulianGreenwichTime();

            // moon position at sunrise on that day
            day.moon.MoonCalc(jdate);

            // correct_parallax(day.moon, jdate, earth.latitude_deg, earth.longitude_deg);

            day.msDistance = GPMath.putIn360(day.moon.longitude_deg - day.sun.eclipticalLongitude - 180.0);
            day.msAyanamsa = GPAyanamsa.GetAyanamsa(jdate);

            // tithi
            d                = day.msDistance / 12.0;
            day.nTithi       = Convert.ToInt32(Math.Floor(d));
            day.nTithiElapse = GPMath.frac(d) * 100.0;
            day.nPaksa       = (day.nTithi >= 15) ? 1 : 0;


            // naksatra
            d                   = GPMath.putIn360(day.moon.longitude_deg - day.msAyanamsa);
            d                   = (d * 3.0) / 40.0;
            day.nNaksatra       = Convert.ToInt32(Math.Floor(d) + 0.1);
            day.nNaksatraElapse = GPMath.frac(d) * 100.0;

            // yoga
            d               = GPMath.putIn360(day.moon.longitude_deg + day.sun.eclipticalLongitude - 2 * day.msAyanamsa);
            d               = (d * 3.0) / 40.0;
            day.nYoga       = Convert.ToInt32(Math.Floor(d));
            day.nYogaElapse = GPMath.frac(d) * 100.0;

            // masa
            day.nMasa = -1;

            // rasi
            day.nSunRasi  = GPEngine.GetRasi(day.sun.eclipticalLongitude, day.msAyanamsa);
            day.nMoonRasi = GPEngine.GetRasi(day.moon.longitude_deg, day.msAyanamsa);

            setDate(date);

            return(1);
        }

示例#2

        public static int WriteXML_Naksatra(StringBuilder doc, GPLocationProvider loc, GPGregorianTime vc, int nDaysCount)
        {
            doc.Append("<xml>\n");
            doc.Append("\t<request name=\"Naksatra\" version=\"" + GPFileHelper.FileVersion + "\">\n");
            doc.Append("\t\t<arg name=\"longitude\" val=\"" + loc.GetLongitudeEastPositive() + "\" />\n");
            doc.Append("\t\t<arg name=\"latitude\" val=\"" + loc.GetLatitudeNorthPositive() + "\" />\n");
            doc.Append("\t\t<arg name=\"timezone\" val=\"" + loc.getTimeZone().OffsetSeconds / 60 + "\" />\n");
            doc.Append("\t\t<arg name=\"startdate\" val=\"" + vc + "\" />\n");
            doc.Append("\t\t<arg name=\"daycount\" val=\"" + nDaysCount + "\" />\n");
            doc.Append("\t</request>\n");
            doc.Append("\t<result name=\"Naksatra\">\n");

            GPGregorianTime d   = new GPGregorianTime(vc);
            GPGregorianTime dn  = new GPGregorianTime(loc);
            GPSun           sun = new GPSun();
            int             nak;

            for (int i = 0; i < 30; i++)
            {
                nak = GPNaksatra.GetNextNaksatra(d, out dn);
                d.Copy(dn);
                doc.Append("\t\t<day date=\"" + d + "\">\n");
                //str = string.Format("{}.{}.{}", d.day, d.month, d.year);
                //n = m_list.InsertItem(50, GPNaksatra.GetName(nak));
                //m_list.SetItemText(n, 1, str);
                doc.Append("\t\t\t<naksatra id=\"" + nak + "\" name=\"" + GPNaksatra.getName(nak) + "\"\n");
                //dt.SetDegTime(d.getDayHours() * 360);
                //time_print(str, dt);
                doc.Append("\t\t\t\tstarttime=\"" + d.getShortTimeString() + "\" />\n");
                //m_list.SetItemText(n, 2, str);

                // sunrise time get
                sun.SunCalc(d, loc);
                //time_print(str, sun.rise);
                //m_list.SetItemText(n, 3, str);
                doc.Append("\t\t\t<sunrise time=\"" + sun.rise + "\" />\n");

                doc.Append("\t\t</day>\n");
                // increment for non-duplication of naksatra
                d.Copy(dn);
                d.setDayHours(d.getDayHours() + 1.0 / 8.0);
            }


            doc.Append("\t</result>\n");
            doc.Append("</xml>\n");


            return(1);
        }

示例#3

        /// <summary>
        /// goes throuhg list of travellings and for each travelling tests
        /// whether it interferes with times for sun (arunodaya, sunrise, noon, sunset)
        /// </summary>
        /// <param name="chr"></param>
        private void processTravellingChanges(List <GPLocationChange> chr)
        {
            foreach (GPLocationChange locc in chr)
            {
                GPLocationProvider prov = new GPLocationProvider(locc.LocationA);
                GPSun newSun            = new GPSun();
                newSun.SunCalc(rise, prov);
                double[] t = new double[4];
                t[0] = newSun.arunodaya.getJulianGreenwichTime();
                t[1] = newSun.rise.getJulianGreenwichTime();
                t[2] = newSun.noon.getJulianGreenwichTime();
                t[3] = newSun.set.getJulianGreenwichTime();

                for (int i = 0; i < 4; i++)
                {
                    if (locc.julianStart > t[i])
                    {
                        t[i] = -1;
                    }
                }

                prov   = new GPLocationProvider(locc.LocationB);
                newSun = new GPSun();
                newSun.SunCalc(rise, prov);
                double[] s = new double[4];
                s[0] = newSun.arunodaya.getJulianGreenwichTime();
                s[1] = newSun.rise.getJulianGreenwichTime();
                s[2] = newSun.noon.getJulianGreenwichTime();
                s[3] = newSun.set.getJulianGreenwichTime();

                for (int i = 0; i < 4; i++)
                {
                    if (locc.julianEnd < s[i])
                    {
                        s[i] = -1;
                    }
                }

                bool[] b = new bool[4];
                for (int i = 0; i < 4; i++)
                {
                    b[i] = (t[i] > 0 && s[i] > 0);
                }

                if (b[0])
                {
                    recalculateArunodayaTravel(this, locc);
                }

                if (b[1])
                {
                    recalculateSunriseTravel(this, locc);
                }

                if (b[2])
                {
                    recalculateNoonTravel(this, locc);
                }

                if (b[3])
                {
                    recalculateSetTravel(this, locc);
                }
            }
        }

示例#4

文件： GPCoreEventResults.cs 项目： vijeetgv/GCAL

        public void CalculateEvents(GPLocationProvider loc, GPGregorianTime vcStart, GPGregorianTime vcEnd)
        {
            GPCoreEventResults inEvents = this;
            GPLocationProvider earth    = loc;
            GPGregorianTime    vc       = new GPGregorianTime(loc);
            GPSun sun = new GPSun();
            //int ndst = 0;
            int nData;

            inEvents.clear();
            inEvents.m_location = loc;
            inEvents.m_vcStart  = vcStart;
            inEvents.m_vcEnd    = vcEnd;

            GPGregorianTime vcAdd  = new GPGregorianTime(loc);
            GPGregorianTime vcTemp = null;
            GPGregorianTime vcNext = new GPGregorianTime(loc);

            vc.Copy(vcStart);

            if (GPDisplays.CoreEvents.Sunrise())
            {
                vcAdd.Copy(vc);
                while (vcAdd.IsBeforeThis(vcEnd))
                {
                    sun.SunCalc(vcAdd, earth);

                    vcTemp = new GPGregorianTime(sun.arunodaya);
                    inEvents.AddEvent(vcTemp, GPConstants.CCTYPE_S_ARUN, 0);

                    //GPJulianTime tr, tt, ts;
                    //GPAstroEngine.CalculateTimeSun(vcTemp, vcTemp.getLocation(), out tr, out tt, out ts);
                    vcTemp = new GPGregorianTime(sun.rise);
                    //vcTemp = new GPGregorianTime(vcTemp.getLocation(), tr);
                    inEvents.AddEvent(vcTemp, GPConstants.CCTYPE_S_RISE, 0);

                    vcTemp = new GPGregorianTime(sun.noon);
                    //vcTemp = new GPGregorianTime(vcTemp.getLocation(), tt);
                    inEvents.AddEvent(vcTemp, GPConstants.CCTYPE_S_NOON, 0);

                    vcTemp = new GPGregorianTime(sun.set);
                    //vcTemp = new GPGregorianTime(vcTemp.getLocation(), ts);
                    inEvents.AddEvent(vcTemp, GPConstants.CCTYPE_S_SET, 0);

                    vcAdd.NextDay();
                }
            }

            if (GPDisplays.CoreEvents.Tithi())
            {
                GPTithi te = new GPTithi();
                te.setStartDate(vc);
                vcAdd = te.getNext();
                while (vcAdd.IsBeforeThis(vcEnd))
                {
                    nData = te.getCurrentPosition();
                    //ndst = loc.getTimeZone().GetDaylightChangeType(vcNext);
                    inEvents.AddEvent(vcAdd, GPConstants.CCTYPE_TITHI, nData);
                    vcAdd = te.getNext();
                }
            }

            if (GPDisplays.CoreEvents.Naksatra())
            {
                GPNaksatra te = new GPNaksatra();
                te.setStartDate(vc);
                vcAdd = te.getNext();
                while (vcAdd.IsBeforeThis(vcEnd))
                {
                    nData = te.getCurrentNaksatra();
                    //ndst = loc.getTimeZone().GetDaylightChangeType(vcNext);
                    inEvents.AddEvent(vcAdd, GPConstants.CCTYPE_NAKS, nData);
                    vcAdd = te.getNext();
                }
            }

            if (GPDisplays.CoreEvents.Sankranti())
            {
                GPSankranti te = new GPSankranti();
                te.setStartDate(vc);
                vcAdd = te.getNext();
                while (vcAdd.IsBeforeThis(vcEnd))
                {
                    nData = te.getCurrentPosition();
                    //ndst = loc.getTimeZone().GetDaylightChangeType(vcNext);
                    inEvents.AddEvent(vcAdd, GPConstants.CCTYPE_SANK, nData);
                    vcAdd = te.getNext();
                }
            }

            if (GPDisplays.CoreEvents.Conjunction())
            {
                double[]      times = null;
                GPConjunction te    = new GPConjunction();
                te.setStartDate(vc);
                vcAdd = te.getNext();
                while (vcAdd.IsBeforeThis(vcEnd))
                {
                    nData = te.getCurrentPosition();
                    //ndst = loc.getTimeZone().GetDaylightChangeType(vcNext);
                    inEvents.AddEvent(vcAdd, GPConstants.CCTYPE_CONJ, nData);

                    if (GPDisplays.CoreEvents.SunEclipse())
                    {
                        GPAstroEngine.CalculateTimesSunEclipse(vcAdd.getJulianGreenwichTime(), vcAdd.getLocation(), out times);
                        if (times != null && times[2] > 0)
                        {
                            for (int i = 0; i < 5; i++)
                            {
                                if (times[i] > 0)
                                {
                                    GPGregorianTime gt = new GPGregorianTime(vcAdd.getLocation());
                                    gt.setJulianGreenwichTime(new GPJulianTime(times[i], 0.0));
                                    inEvents.AddEvent(gt, GPConstants.SUNECLIPSE_CONSTS[i], 0);
                                }
                            }
                        }
                    }

                    vcAdd = te.getNext();
                }
            }


            // moon eclipses
            if (GPDisplays.CoreEvents.MoonEclipse())
            {
                double[]      times = null;
                GPConjunction te    = new GPConjunction();
                te.setOpositeConjunction(true);
                te.setStartDate(vc);
                vcAdd = te.getNext();
                while (vcAdd.IsBeforeThis(vcEnd))
                {
                    GPAstroEngine.CalculateTimesMoonEclipse(vcAdd.getJulianGreenwichTime(), vcAdd.getLocation(), out times);
                    if (times != null && times[4] > 0)
                    {
                        for (int i = 0; i < 9; i++)
                        {
                            if (times[i] > 0 && GPConstants.MOONECLIPSE_CONSTS[i] > 0)
                            {
                                GPGregorianTime gt = new GPGregorianTime(vcAdd.getLocation());
                                gt.setJulianGreenwichTime(new GPJulianTime(times[i], 0.0));
                                inEvents.AddEvent(gt, GPConstants.MOONECLIPSE_CONSTS[i], 0);
                            }
                        }
                    }

                    vcAdd = te.getNext();
                }
            }

            // rise and set of the moon
            if (GPDisplays.CoreEvents.Moonrise())
            {
                GPJulianTime julian    = vc.getJulian();
                GPJulianTime julianEnd = vcEnd.getJulian();
                GPJulianTime nextJulian;
                TRiseSet     kind;

                while (julian.getGreenwichJulianDay() < julianEnd.getGreenwichJulianDay())
                {
                    nextJulian = GPAstroEngine.GetNextMoonEvent(julian, vc.getLocationProvider(), out kind);
                    if (kind == TRiseSet.RISE)
                    {
                        inEvents.AddEvent(new GPGregorianTime(loc, nextJulian), GPConstants.CoreEventMoonRise, 0);
                    }
                    else if (kind == TRiseSet.SET)
                    {
                        inEvents.AddEvent(new GPGregorianTime(loc, nextJulian), GPConstants.CoreEventMoonSet, 0);
                    }
                    julian.setGreenwichJulianDay(nextJulian.getGreenwichJulianDay() + 10.0 / 1440.0);
                }
            }

            // travellings
            {
                GPJulianTime julian = vc.getJulian();
                GPJulianTime julianEnd = vcEnd.getJulian();
                double       start, end;

                start = julian.getGreenwichJulianDay();
                end   = julianEnd.getGreenwichJulianDay();

                for (int i = 0; i < loc.getChangeCount(); i++)
                {
                    GPLocationChange chn = loc.getChangeAtIndex(i);
                    if ((chn.julianStart >= start && chn.julianStart <= end) ||
                        (chn.julianStart >= start && chn.julianEnd <= end))
                    {
                        GPGregorianTime startTime = new GPGregorianTime(chn.LocationA);
                        startTime.setJulianGreenwichTime(new GPJulianTime(chn.julianStart, 0));
                        GPGregorianTime endTime = new GPGregorianTime(chn.LocationB);
                        endTime.setJulianGreenwichTime(new GPJulianTime(chn.julianEnd, 0));
                        inEvents.AddEvent(startTime, GPConstants.CCTYPE_TRAVELLING_START, 0);
                        inEvents.AddEvent(endTime, GPConstants.CCTYPE_TRAVELLING_END, 0);
                    }
                }
            }

            // eventual sorting
            inEvents.Sort(GPDisplays.CoreEvents.Sort());
        }

示例#5

        public static int WriteXML_GaurabdaNextTithi(StringBuilder doc, GPLocationProvider loc, GPGregorianTime vcStart, GPVedicTime vaStart)
        {
            int gmasa, gpaksa, gtithi;


            gmasa  = vaStart.masa;
            gpaksa = vaStart.tithi / 15;
            gtithi = vaStart.tithi % 15;

            doc.Append("<xml>\n");
            doc.Append("\t<request name=\"Tithi\" version=\"" + GPFileHelper.FileVersion + "\">\n");
            doc.Append("\t\t<arg name=\"longitude\" val=\"" + loc.GetLongitudeEastPositive() + "\" />\n");
            doc.Append("\t\t<arg name=\"latitude\" val=\"" + loc.GetLatitudeNorthPositive() + "\" />\n");
            doc.Append("\t\t<arg name=\"timezone\" val=\"" + loc.getTimeZone().OffsetSeconds / 60 + "\" />\n");
            doc.Append("\t\t<arg name=\"start date\" val=\"" + vcStart + "\" />\n");
            doc.Append("\t\t<arg name=\"masa\" val=\"" + gmasa + "\" />\n");
            doc.Append("\t\t<arg name=\"paksa\" val=\"" + gpaksa + "\" />\n");
            doc.Append("\t\t<arg name=\"tithi\" val=\"" + gtithi + "\" />\n");
            doc.Append("\t</request>\n");
            doc.Append("\t<result name=\"Tithi\">\n");

            GPGregorianTime vcs   = new GPGregorianTime(loc);
            GPGregorianTime vce   = new GPGregorianTime(loc);
            GPGregorianTime today = new GPGregorianTime(loc);
            GPSun           sun   = new GPSun();
            int             A;
            double          sunrise;
            GPAstroData     day = new GPAstroData();
            int             oTithi, oPaksa, oMasa, oYear;

            today.Copy(vcStart);
            today.PreviousDay();
            vcStart.SubDays(15);
            for (A = 0; A <= 3; A++)
            {
                vcs = GPTithi.CalcTithiEndEx(vcStart, 0, gmasa, gpaksa, gtithi, loc, out vce);
                if (!vcs.IsBeforeThis(today))
                {
                    oTithi = gpaksa * 15 + gtithi;
                    oMasa  = gmasa;
                    oPaksa = gpaksa;
                    oYear  = 0;
                    doc.Append("\t<celebration\n");
                    //		doc.Append( "\t\t<tithi\n");
                    doc.Append("\t\trtithi=\"" + GPTithi.getName(oTithi) + "\"\n");
                    doc.Append("\t\trmasa=\"" + GPMasa.GetName(oMasa) + "\"\n");
                    doc.Append("\t\trpaksa=\"" + GPPaksa.getName(oPaksa) + "\"\n");
                    // test ci je ksaya
                    today.Copy(vcs);
                    today.setDayHours(0.5);
                    sun.SunCalc(today, loc);
                    sunrise = sun.getSunriseDayHours();
                    if (sunrise < vcs.getDayHours())
                    {
                        today.Copy(vce);
                        sun.SunCalc(today, loc);
                        sunrise = sun.getSunriseDayHours();
                        if (sunrise < vce.getDayHours())
                        {
                            // normal type
                            vcs.NextDay();
                            doc.Append("\t\ttype=\"normal\"\n");
                        }
                        else
                        {
                            // ksaya
                            vcs.NextDay();
                            day.calculateDayData(vcs, loc);
                            oTithi = day.nTithi;
                            oPaksa = day.nPaksa;
                            oMasa  = day.determineMasa(vcs, out oYear);
                            doc.Append("\t\ttype=\"ksaya\"\n");
                        }
                    }
                    else
                    {
                        // normal, alebo prvy den vriddhi
                        today.Copy(vce);
                        sun.SunCalc(today, loc);
                        if (sun.getSunriseDayHours() < vce.getDayHours())
                        {
                            // first day of vriddhi type
                            doc.Append("\t\ttype=\"vriddhi\"\n");
                        }
                        else
                        {
                            // normal
                            doc.Append("\t\ttype=\"normal\"\n");
                        }
                    }
                    doc.Append("\t\tdate=\"" + vcs + "\"\n");
                    doc.Append("\t\totithi=\"" + GPTithi.getName(oTithi) + "\"\n");
                    doc.Append("\t\tomasa=\"" + GPMasa.GetName(oMasa) + "\"\n");
                    doc.Append("\t\topaksa=\"" + GPPaksa.getName(oPaksa) + "\"\n");
                    doc.Append("\t/>\n");
                    break;
                }
                else
                {
                    vcStart.Copy(vcs);
                    vcs.NextDay();
                }
            }

            doc.Append("\t</result>\n");
            doc.Append("</xml>\n");


            return(1);
        }

示例#6

        public static int WriteXML_GaurabdaTithi(StringBuilder doc, GPLocationProvider loc, GPVedicTime vaStart, GPVedicTime vaEnd)
        {
            int gyearA = vaStart.gyear;
            int gyearB = vaEnd.gyear;
            int gmasa  = vaStart.masa;
            int gpaksa = vaStart.tithi / 15;
            int gtithi = vaStart.tithi % 15;

            if (gyearB < gyearA)
            {
                gyearB = gyearA;
            }



            doc.Append("<xml>\n");
            doc.Append("\t<request name=\"Tithi\" version=\"" + GPFileHelper.FileVersion + "\">\n");
            doc.Append("\t\t<arg name=\"longitude\" val=\"" + loc.getLocation(0).GetLongitudeEastPositive() + "\" />\n");
            doc.Append("\t\t<arg name=\"latitude\" val=\"" + loc.getLocation(0).GetLatitudeNorthPositive() + "\" />\n");
            doc.Append("\t\t<arg name=\"timezone\" val=\"" + loc.getLocation(0).getTimeZone().OffsetSeconds / 60 + "\" />\n");
            if (gyearA > 1500)
            {
                doc.Append("\t\t<arg name=\"year-start\" val=\"" + gyearA + "\" />\n");
                doc.Append("\t\t<arg name=\"year-end\" val=\"" + gyearB + "\" />\n");
            }
            else
            {
                doc.Append("\t\t<arg name=\"gaurabdayear-start\" val=\"" + gyearA + "\" />\n");
                doc.Append("\t\t<arg name=\"gaurabdayear-end\" val=\"" + gyearB + "\" />\n");
            }
            doc.Append("\t\t<arg name=\"masa\" val=\"" + gmasa + "\" />\n");
            doc.Append("\t\t<arg name=\"paksa\" val=\"" + gpaksa + "\" />\n");
            doc.Append("\t\t<arg name=\"tithi\" val=\"" + gtithi + "\" />\n");
            doc.Append("\t</request>\n");
            doc.Append("\t<result name=\"Tithi\">\n");


            GPGregorianTime vcs = new GPGregorianTime(loc), vce = new GPGregorianTime(loc), today = new GPGregorianTime(loc);
            GPSun           sun = new GPSun();
            int             A, B;
            double          sunrise;
            GPAstroData     day = new GPAstroData();
            int             oTithi, oPaksa, oMasa, oYear;

            if (gyearA > 1500)
            {
                A = gyearA - 1487;
                B = gyearB - 1485;
            }
            else
            {
                A = gyearA;
                B = gyearB;
            }

            for (; A <= B; A++)
            {
                vcs = GPTithi.CalcTithiEnd(A, gmasa, gpaksa, gtithi, loc, out vce);
                if (gyearA > 1500)
                {
                    if ((vcs.getYear() < gyearA) || (vcs.getYear() > gyearB))
                    {
                        continue;
                    }
                }
                oTithi = gpaksa * 15 + gtithi;
                oMasa  = gmasa;
                oPaksa = gpaksa;
                oYear  = 0;
                doc.Append("\t<celebration\n");
                doc.Append("\t\trtithi=\"" + GPTithi.getName(oTithi) + "\"\n");
                doc.Append("\t\trmasa=\"" + GPMasa.GetName(oMasa) + "\"\n");
                doc.Append("\t\trpaksa=\"" + GPPaksa.getName(oPaksa) + "\"\n");
                // test ci je ksaya
                today.Copy(vcs);
                today.setDayHours(0.5);
                sun.SunCalc(today, loc);
                sunrise = sun.getSunriseDayHours();
                if (sunrise < vcs.getDayHours())
                {
                    today.Copy(vce);
                    sun.SunCalc(today, loc);
                    sunrise = sun.getSunriseDayHours();
                    if (sunrise < vce.getDayHours())
                    {
                        // normal type
                        vcs.NextDay();
                        doc.Append("\t\ttype=\"normal\"\n");
                    }
                    else
                    {
                        // ksaya
                        vcs.NextDay();
                        day.calculateDayData(vcs, loc);
                        oTithi = day.nTithi;
                        oPaksa = day.nPaksa;
                        oMasa  = day.determineMasa(vcs, out oYear);
                        doc.Append("\t\ttype=\"ksaya\"\n");
                    }
                }
                else
                {
                    // normal, alebo prvy den vriddhi
                    today.Copy(vce);
                    sun.SunCalc(today, loc);
                    if (sun.getSunriseDayHours() < vce.getDayHours())
                    {
                        // first day of vriddhi type
                        doc.Append("\t\ttype=\"vriddhi\"\n");
                    }
                    else
                    {
                        // normal
                        doc.Append("\t\ttype=\"normal\"\n");
                    }
                }
                doc.Append("\t\tdate=\"" + vcs + "\"\n");
                doc.Append("\t\totithi=\"" + GPTithi.getName(oTithi) + "\"\n");
                doc.Append("\t\tomasa=\"" + GPMasa.GetName(oMasa) + "\"\n");
                doc.Append("\t\topaksa=\"" + GPPaksa.getName(oPaksa) + "\"\n");
                doc.Append("\t/>\n");
                //		doc.Append( "\t\t</celebration>\n");
            }


            doc.Append("\t</result>\n");
            doc.Append("</xml>\n");

            return(1);
        }