public static void FormatAppDayText(GPAppDayResults app, StringBuilder strResult)
{
GPAstroData d = app.details;
string str;
GPGregorianTime vc = app.evente;
StringBuilder strText = strResult;
int max = 0;
foreach (GPStringPair rec in app.output)
{
if (!rec.Header)
{
max = Math.Max(max, rec.Name.Length);
}
}
max++;
foreach (GPStringPair rec in app.output)
{
if (rec.Header)
{
AddTextLine(strText, rec.Name);
AddTextLine(strText, string.Empty.PadLeft(rec.Name.Length, '-'));
}
else
{
str = string.Format("{0} : {1}", rec.Name.PadLeft(max), rec.Value);
AddTextLine(strText, str);
}
}
}
public static void FormatAppDayRtf(GPAppDayResults app, StringBuilder strResult)
{
//MOONDATA moon;
//SUNDATA sun;
GPAstroData d = app.details;
string str;
GPGregorianTime vc = app.evente;
StringBuilder strText = strResult;
strText.Remove(0, strText.Length);
AppendRtfHeader(strText);
foreach (GPStringPair rec in app.output)
{
if (rec.Header)
{
strText.AppendFormat("\\par\\pard{{\\f2\\fs{0} {1}}", g_HeaderSize, rec.Name);
strText.AppendFormat("\\par\\pard\\f2\\fs{0}\r\n", g_TextSize);
}
else
{
str = string.Format("\\tab {0} : {{\\b {1}}", rec.Name, rec.Value);
AddTextLineRtf(strText, str);
}
}
strText.Append("}");
}
//===========================================================================
//
//===========================================================================
public static void VCTIMEtoVATIME(GPGregorianTime vc, out GPVedicTime va, GPLocationProvider earth)
{
GPAstroData day = new GPAstroData();
va = new GPVedicTime();
day.calculateDayData(vc, earth);
va.masa = day.determineMasa(vc, out va.gyear);
va.tithi = day.nTithi;
}
public static int getGaurabdaYear(GPGregorianTime vc, GPLocationProvider earth)
{
GPAstroData day = new GPAstroData();
int n;
day.calculateDayData(vc, earth);
day.determineMasa(vc, out n);
return(n);
}
/*********************************************************************/
/* */
/* 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);
}
/*********************************************************************/
/* Finds date of Pratipat, Krsna Paksa, Visnu Masa */
/* */
/* EARTHDATA earth - location */
/* int nYear - Gregorian year */
/* */
/*********************************************************************/
public static GPGregorianTime getFirstDayOfYear(GPLocationProvider earth, int nYear)
{
int[] a = new int[] { 2, 15, 3, 1, 3, 15, 4, 1, 4, 15 };
GPGregorianTime d = new GPGregorianTime(earth);
GPAstroData day = new GPAstroData();
int gy, j, masa;
int step;
uint tmp;
if (nYear >= 1950 && nYear < 2058)
{
tmp = gGaurBeg[(nYear - 1950) * 26 + 22];
d.setDate(nYear, Convert.ToInt32(tmp & 0x3e0) >> 5, Convert.ToInt32(tmp & 0x1f));
d.NextDay();
a[0] = d.getMonth();
a[1] = d.getDay();
}
for (int i = 0; i < 10; i += 2)
{
d.setDate(nYear, a[i], a[i + 1]);
day.calculateDayData(d, earth);
masa = day.determineMasa(d, out gy);
if (masa == 11) // visnu masa
{
do
{
// shifts date
step = day.nTithi / 2;
step = (step > 0) ? step : 1;
for (j = step; j > 0; j--)
{
d.PreviousDay();
}
// try new time
day.calculateDayData(d, earth);
}while (day.nTithi < 28);
d.NextDay();
d.setDayHours(day.sun.getSunriseDayHours());
return(d);
}
}
d.Clear();
d.setDayHours(day.sun.getSunriseDayHours());
return(d);
}
public static int WriteXML_Tithi(StringBuilder doc, GPLocationProvider loc, GPGregorianTime vc)
{
doc.Append("<xml>\n");
doc.Append("\t<request name=\"Tithi\" version=\"" + GPFileHelper.FileVersion + "\">\n");
doc.Append("\t\t<arg name=\"longitude\" val=\"" + vc.getLocation().GetLongitudeEastPositive() + "\" />\n");
doc.Append("\t\t<arg name=\"latitude\" val=\"" + vc.getLocation().GetLatitudeNorthPositive() + "\" />\n");
doc.Append("\t\t<arg name=\"timezone\" val=\"" + vc.getLocation().getTimeZone().OffsetSeconds / 60 + "\" />\n");
doc.Append("\t\t<arg name=\"startdate\" val=\"" + vc + "\" />\n");
doc.Append("\t</request>\n");
doc.Append("\t<result name=\"Tithi\">\n");
GPGregorianTime d = new GPGregorianTime(vc);
GPGregorianTime d1 = new GPGregorianTime(loc);
GPGregorianTime d2 = new GPGregorianTime(loc);
GPAstroData day = new GPAstroData();
day.calculateDayData(vc, loc);
d.setDayHours(day.sun.getSunriseDayHours());
GPTithi.GetPrevTithiStart(d, out d1);
GPTithi.GetNextTithiStart(d, out d2);
//dt.SetDegTime(d1.getDayHours() * 360);
// start tithi at t[0]
doc.Append("\t\t<tithi\n\t\t\tid=\"" + day.nTithi + "\"\n");
doc.Append("\t\t\tname=\"" + GPTithi.getName(day.nTithi) + "\"\n");
doc.Append("\t\t\tstartdate=\"" + d1.getShortDateString() + "\"\n");
doc.Append("\t\t\tstarttime=\"" + d1.getShortTimeString() + "\"\n");
//dt.SetDegTime(d2.getDayHours() * 360);
doc.Append("\t\t\tenddate=\"" + d2.getShortDateString() + "\"\n");
doc.Append("\t\t\tendtime=\"" + d2.getShortTimeString() + "\"\n />");
doc.Append("\t</result>\n");
doc.Append("</xml>\n");
return(1);
}
public void Copy(GPAstroData dt)
{
this.setLocation(dt.getLocation());
this.setDate(dt.getDate());
this.jdate = dt.jdate;
this.moon = new GPMoon(dt.moon);
this.msAyanamsa = dt.msAyanamsa;
this.msDistance = dt.msDistance;
this.nGaurabdaYear = dt.nGaurabdaYear;
this.nMasa = dt.nMasa;
this.nMoonRasi = dt.nMoonRasi;
this.nNaksatra = dt.nNaksatra;
this.nNaksatraElapse = dt.nNaksatraElapse;
this.nPaksa = dt.nPaksa;
this.nSunRasi = dt.nSunRasi;
this.nTithi = dt.nTithi;
this.nTithiElapse = dt.nTithiElapse;
this.nYoga = dt.nYoga;
this.nYogaElapse = dt.nYogaElapse;
this.sun = new GPSun(dt.sun);
}
public static GPGregorianTime CalcTithiEndEx(GPGregorianTime vcStart, int GYear, int nMasa, int nPaksa, int nTithi, GPLocationProvider earth, out GPGregorianTime endTithi)
{
int i, gy, nType;
GPGregorianTime d = new GPGregorianTime(earth);
GPGregorianTime dtemp = new GPGregorianTime(earth);
GPAstroData day = new GPAstroData();
int tithi;
int counter;
GPGregorianTime start = new GPGregorianTime(earth), end = new GPGregorianTime(earth);
// SUNDATA sun;
// MOONDATA moon;
double sunrise;
start.setDayHours(-1.0);
end.setDayHours(-1.0);
start.Clear();
end.Clear();
/* d = GetFirstDayOfYear(earth, nGYear + 1486);
* d.shour = 0.5;
* d.TimeZone = earth.tzone;
*/
d.Copy(vcStart);
i = 0;
do
{
d.AddDays(13);
day.calculateDayData(d, earth);
day.nMasa = day.determineMasa(d, out gy);
day.nGaurabdaYear = gy;
i++;
}while (((day.nPaksa != nPaksa) || (day.nMasa != nMasa)) && (i <= 30));
if (i >= 30)
{
d.Clear();
endTithi = d;
return(d);
}
// we found masa and paksa
// now we have to find tithi
tithi = nTithi + nPaksa * 15;
if (day.nTithi == tithi)
{
// loc1
// find tithi juncts in this day and according to that times,
// look in previous or next day for end and start of this tithi
nType = 1;
}
else
{
if (day.nTithi < tithi)
{
// do increment of date until nTithi == tithi
// but if nTithi > tithi
// then do decrement of date
counter = 0;
while (counter < 30)
{
d.NextDay();
day.calculateDayData(d, earth);
if (day.nTithi == tithi)
{
goto cont_2;
}
if ((day.nTithi < tithi) && (day.nPaksa != nPaksa))
{
d.PreviousDay();
goto cont_2;
}
if (day.nTithi > tithi)
{
d.PreviousDay();
goto cont_2;
}
counter++;
}
// somewhere is error
d.Clear();
nType = 0;
}
else
{
// do decrement of date until nTithi <= tithi
counter = 0;
while (counter < 30)
{
d.PreviousDay();
day.calculateDayData(d, earth);
if (day.nTithi == tithi)
{
goto cont_2;
}
if ((day.nTithi > tithi) && (day.nPaksa != nPaksa))
{
goto cont_2;
}
if (day.nTithi < tithi)
{
goto cont_2;
}
counter++;
}
// somewhere is error
d.Clear();
nType = 0;
}
cont_2:
if (day.nTithi == tithi)
{
// do the same as in loc1
nType = 1;
}
else
{
// nTithi != tithi and nTithi < tithi
// but on next day is nTithi > tithi
// that means we will find start and the end of tithi
// in this very day or on next day before sunrise
nType = 2;
}
}
// now we know the type of day-accurancy
// nType = 0 means, that we dont found a day
// nType = 1 means, we find day, when tithi was present at sunrise
// nType = 2 means, we found day, when tithi started after sunrise
// but ended before next sunrise
//
sunrise = day.sun.getSunriseDayHours() / 360 + day.sun.rise.getLocation().getTimeZoneOffsetHours() / 24;
if (nType == 1)
{
GPGregorianTime d1, d2;
d.setDayHours(sunrise);
GetPrevTithiStart(d, out d1);
//d = d1;
//d.shour += 0.02;
GetNextTithiStart(d, out d2);
endTithi = d2;
return(d1);
}
else if (nType == 2)
{
GPGregorianTime d1, d2;
d.setDayHours(sunrise);
GetNextTithiStart(d, out d1);
d.Copy(d1);
d.addDayHours(0.1);
GetNextTithiStart(d, out d2);
endTithi = d2;
return(d1);
}
// if nType == 0, then this algoritmus has some failure
if (nType == 0)
{
d.Clear();
d.setDayHours(0.0);
endTithi = d;
}
else
{
d.Copy(start);
endTithi = end;
}
return(d);
}
public static void FormatAppDayXML(GPAppDayResults app, StringBuilder strResult)
{
GPAstroData d = app.details;
string str;
GPGregorianTime vc = app.evente;
StringBuilder strText = strResult;
int npada;
bool bDuringAdhika = false;
strText.AppendFormat(
"<xml>\n" +
"\t<request name=\"AppDay\" version=\"{0}\">\n" +
"\t\t<arg name=\"longitude\" value=\"{1}\" />\n" +
"\t\t<arg name=\"latitude\" value=\"{2}\" />\n" +
"\t\t<arg name=\"timezone\" value=\"{3}\" />\n" +
"\t\t<arg name=\"year\" value=\"{4}\" />\n" +
"\t\t<arg name=\"month\" value=\"{5}\" />\n" +
"\t\t<arg name=\"day\" value=\"{6}\" />\n" +
"\t\t<arg name=\"hour\" value=\"{7}\" />\n" +
"\t\t<arg name=\"minute\" value=\"{8}\" />\n" +
"\t</request>\n", GPFileHelper.FileVersion,
app.evente.getLocation().GetLongitudeEastPositive(), app.evente.getLocation().GetLatitudeNorthPositive(),
app.evente.getLocation().getTimeZoneName(),
app.evente.getYear(), app.evente.getMonth(), app.evente.getDay(), app.evente.getHour(), app.evente.getMinuteRound()
);
npada = Convert.ToInt32(d.nNaksatraElapse / 25.0) + 1;
if (npada > 4)
{
npada = 4;
}
str = string.Format("\t<result name=\"AppDay\" >\n" +
"\t\t<tithi name=\"{0}\" elapse=\"{1}\" />\n" +
"\t\t<naksatra name=\"{2}\" elapse=\"{3}\" pada=\"{4}\"/>\n" +
"\t\t<paksa name=\"{5}\" />\n" +
"\t\t<masa name=\"{6}\" adhikamasa=\"{7}\"/>\n" +
"\t\t<gaurabda value=\"{8}\" />\n"
, GPTithi.getName(d.nTithi), d.nTithiElapse
, GPNaksatra.getName(d.nNaksatra), d.nNaksatraElapse, npada
, GPPaksa.getName(d.nPaksa)
, GPMasa.GetName(d.nMasa), (bDuringAdhika ? "yes" : "no")
, d.nGaurabdaYear
);
strText.Append(str);;
string prefix = string.Format("{0} ", getSharedStringHtml(994));
strText.Append("\t\t<celebrations>\n");
foreach (GPStringPair rec in app.output)
{
if (rec.Name.StartsWith(prefix))
{
str = string.Format("\t\t\t<celebration gaurabda=\"{0}\" date=\"{1}\" />\n", rec.Name, rec.Value);
strText.Append(str);
}
}
strText.Append("\t\t</celebrations>\n\t</result>\n</xml>\n");
}
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);
}
public GPAstroData(GPAstroData dt)
{
Copy(dt);
}
/*********************************************************************/
/* */
/* */
/* */
/* */
/* */
/*********************************************************************/
public int determineMasa(GPGregorianTime aDate, out int nGaurabdaYear)
{
GPAstroData day = this;
GPGregorianTime date = new GPGregorianTime(aDate);
const int PREV_MONTHS = 6;
double[] L = new double[8];
GPGregorianTime[] C = new GPGregorianTime[8];
int[] R = new int[8];
int n, rasi;
int masa = 0;
int ksaya_from = -1;
int ksaya_to = -1;
date.setDayHours(day.sun.getSunriseDayHours());
// STEP 1: calculate position of the sun and moon
// it is done by previous call of DayCalc
// and results are in argument DAYDATA day
// *DayCalc(date, earth, day, moon, sun);*
GPConjunction cit = new GPConjunction();
cit.setStartDate(date);
for (n = 1; n >= 0; n--)
{
cit.getNext();
R[n] = cit.getCurrentPosition();
}
//L[1] = /*Long[0] =*/ GPConjunction.GetNextConjunction(date, ref C[1], false, earth);
//L[0] = /*LongA =*/ GPConjunction.GetNextConjunction(C[1], ref C[0], true, earth);
cit = new GPConjunction();
cit.setStartDate(date);
for (n = 2; n < 8; n++)
{
cit.getPrev();
R[n] = cit.getCurrentPosition();
}
// on Pratipat (nTithi == 15) we need to look for previous conjunction
// but this conjunction can occur on this date before sunrise
// so we need to include this very date into looking for conjunction
// on other days we cannot include it
// and exclude it from looking for next because otherwise that will cause
// incorrect detection of Purusottama adhika masa
/*L[2] = GPConjunction.GetPrevConjunction(date, ref C[2], false, earth);
*
* for (n = 3; n < PREV_MONTHS; n++)
* L[n] = GPConjunction.GetPrevConjunction(C[n - 1], ref C[n], true, earth);
*
* for (n = 0; n < PREV_MONTHS; n++)
* {
* int nr = GPEngine.GetRasi(L[n], GPAyanamsa.GetAyanamsa(C[n].getJulianLocalNoon()));
* //if (nr != R[n])
* // Debugger.Log(0, "", String.Format("Different rasi {0} <=> {1} for input date: {2}", nr, R[n], date));
* R[n] = nr;
* }*/
/* TRACE("TEST Date: %d %d %d\n", date.day, date.month, date.year);
* TRACE("FOUND CONJ Date: %d %d %d rasi: %d\n", C[1].day, C[1].month, C[1].year, R[1]);
* TRACE("FOUND CONJ Date: %d %d %d rasi: %d\n", C[2].day, C[2].month, C[2].year, R[2]);
* TRACE("FOUND CONJ Date: %d %d %d rasi: %d\n", C[3].day, C[3].month, C[3].year, R[3]);
* TRACE("FOUND CONJ Date: %d %d %d rasi: %d\n", C[4].day, C[4].month, C[4].year, R[4]);
* TRACE("---\n");
*/
// test for Adhika-Ksaya sequence
// this is like 1-2-2-4-5...
// second (2) is replaced by rasi(3)
/* if ( ((Sank[1] + 2) % 12 == SankA) && ((Sank[1] == Sank[0]) || (Sank[0] == SankA)))
* {
* Sank[0] = (Sank[1] + 1) % 12;
* }
*
* if ( ((Sank[2] + 2) % 12 == Sank[0]) && ((Sank[2] == Sank[1]) || (Sank[1] == Sank[0])))
* {
* Sank[1] = (Sank[2] + 1) % 12;
* }*/
// look for ksaya month
ksaya_from = -1;
for (n = PREV_MONTHS - 2; n >= 0; n--)
{
if ((R[n + 1] + 2) % 12 == R[n])
{
ksaya_from = n;
break;
}
}
if (ksaya_from >= 0)
{
for (n = ksaya_from; n > 0; n--)
{
if (R[n] == R[n - 1])
{
ksaya_to = n;
break;
}
}
if (ksaya_to >= 0)
{
// adhika masa found
// now correct succession of rasis
}
else
{
// adhika masa not found
// there will be some break in masa queue
ksaya_to = 0;
}
int current_rasi = R[ksaya_from + 1] + 1;
for (n = ksaya_from; n >= ksaya_to; n--)
{
R[n] = current_rasi;
current_rasi = (current_rasi + 1) % 12;
}
}
// STEP 3: test for adhika masa
// test for adhika masa
if (R[1] == R[2])
{
// it is adhika masa
masa = 12;
rasi = R[1];
}
else
{
// STEP 2. select nearest Conjunction
if (day.nPaksa == 0)
{
masa = R[1];
}
else if (day.nPaksa == 1)
{
masa = R[2];
}
rasi = masa;
}
// calculation of Gaurabda year
nGaurabdaYear = date.getYear() - 1486;
if ((rasi > 7) && (rasi < 11)) // Visnu
{
if (date.getMonth() < 6)
{
nGaurabdaYear--;
}
}
return(masa);
}
public int CalcMasaList(GPLocationProvider loc, int nYear, int nCount)
{
GPMasaListResults mlist = this;
GPAstroData day = new GPAstroData();
GPGregorianTime d = new GPGregorianTime(loc);
GPGregorianTime de = new GPGregorianTime(loc);
GPGregorianTime t = new GPGregorianTime(loc);
vc_end = new GPGregorianTime(loc);
vc_start = new GPGregorianTime(loc);
int lm = -1;
mlist.n_startYear = nYear;
mlist.n_countYears = nCount;
d.Copy(GPGaurabdaYear.getFirstDayOfYear(loc, nYear));
de.Copy(GPGaurabdaYear.getFirstDayOfYear(loc, nYear + nCount));
mlist.vc_start.Copy(d);
mlist.vc_end.Copy(de);
mlist.m_location = loc;
alloc(nCount);
int i = 0;
int prev_paksa = -1;
int current = 0;
while (d.IsBeforeThis(de))
{
day.calculateDayData(d, loc);
if (prev_paksa != day.nPaksa)
{
day.nMasa = day.determineMasa(d, out day.nGaurabdaYear);
if (lm != day.nMasa)
{
if (lm >= 0)
{
t.Copy(d);
t.PreviousDay();
mlist.arr[current].vc_end.Copy(t);
current++;
}
lm = day.nMasa;
mlist.arr[current].masa = day.nMasa;
mlist.arr[current].year = day.nGaurabdaYear;
mlist.arr[current].vc_start.Copy(d);
}
}
prev_paksa = day.nPaksa;
d.NextDay();
i++;
}
t.Copy(d);
mlist.arr[current].vc_end.Copy(t);
current++;
mlist.n_countMasa = current;
return(1);
}
public void calculateAppearanceDayData(GPLocationProvider aLocation, GPGregorianTime aEvente)
{
//MOONDATA moon;
//SUNDATA sun;
location = aLocation;
evente = new GPGregorianTime(aEvente);
double dd;
GPAstroData d = details;
GPGregorianTime vc = evente;
GPGregorianTime vcsun = evente;
b_adhika = false;
d.calculateDayData(aEvente, aLocation);
//d.nTithi = GetPrevTithiStart(m_earth, vc, dprev);
//GetNextTithiStart(m_earth, vc, dnext);
//vcsun.setDayHours(vcsun.getDayHours() - vcsun.getTimeZoneOffsetHours() / 24.0);
vcsun.normalizeValues();
d.sun.calculateCoordinatesMethodC(vcsun, -1);
d.moon.MoonCalc(vcsun.getJulianGreenwichTime());
d.msDistance = GPMath.putIn360(d.moon.longitude_deg - d.sun.eclipticalLongitude - 180.0);
d.msAyanamsa = GPAyanamsa.GetAyanamsa(vc.getJulianGreenwichTime());
// tithi
dd = d.msDistance / 12.0;
d.nTithi = Convert.ToInt32(Math.Floor(dd));
d.nTithiElapse = GPMath.frac(dd) * 100.0;
d.nPaksa = (d.nTithi >= 15) ? 1 : 0;
// naksatra
dd = GPMath.putIn360(d.moon.longitude_deg - d.msAyanamsa);
dd = (dd * 3.0) / 40.0;
d.nNaksatra = Convert.ToInt32(Math.Floor(dd));
d.nNaksatraElapse = GPMath.frac(dd) * 100.0;
d.nMasa = d.determineMasa(vc, out d.nGaurabdaYear);
d.nMoonRasi = GPEngine.GetRasi(d.moon.longitude_deg, d.msAyanamsa);
d.nSunRasi = GPEngine.GetRasi(d.sun.eclipticalLongitude, d.msAyanamsa);
if (d.nMasa == GPMasa.ADHIKA_MASA)
{
d.nMasa = GPEngine.GetRasi(d.sun.eclipticalLongitude, d.msAyanamsa);
b_adhika = true;
}
string dstApplicable = "";
//List<string> gstr = GPStrings.getSharedStrings().gstr;
output.Add(new GPStringPair(GPStrings.getString(25), "", true));
output.Add(new GPStringPair(GPStrings.getString(7), vc.ToString()));
output.Add(new GPStringPair(GPStrings.getString(8), vc.getShortTimeString(true, ref dstApplicable)));
output.Add(new GPStringPair(GPStrings.getString(9), vc.getLocation().getFullName()));
//output.Add(new GPStringPair(gstr[10], vc.getLocation().getLatitudeString()));
//output.Add(new GPStringPair(gstr[11], vc.getLocation().getLongitudeString()));
//output.Add(new GPStringPair(gstr[12], vc.getLocation().getTimeZoneName()));
//output.Add(new GPStringPair(gstr[1001], dstApplicable));
output.Add(new GPStringPair(GPStrings.getString(13), GPTithi.getName(d.nTithi)));
output.Add(new GPStringPair(GPStrings.getString(14), string.Format("{0:0.###} %", d.nTithiElapse)));
output.Add(new GPStringPair(GPStrings.getString(15), GPNaksatra.getName(d.nNaksatra)));
output.Add(new GPStringPair(GPStrings.getString(16), string.Format("{0:0.###} % ({1})", d.nNaksatraElapse, GPStrings.getString(811 + Convert.ToInt32(d.nNaksatraElapse / 25.0)))));
output.Add(new GPStringPair(GPStrings.getString(991), GPSankranti.getName(d.nMoonRasi)));
output.Add(new GPStringPair(GPStrings.getString(992), GPSankranti.getName(d.nSunRasi)));
output.Add(new GPStringPair(GPStrings.getString(20), GPPaksa.getName(d.nPaksa)));
if (b_adhika == true)
{
output.Add(new GPStringPair(GPStrings.getString(22), string.Format("{0} {1}", GPMasa.GetName(d.nMasa), GPStrings.getString(21))));
}
else
{
output.Add(new GPStringPair(GPStrings.getString(22), GPMasa.GetName(d.nMasa)));
}
output.Add(new GPStringPair(GPStrings.getString(23), d.nGaurabdaYear.ToString()));
if (GPDisplays.AppDay.childNameSuggestions())
{
output.Add(new GPStringPair());
output.Add(new GPStringPair(GPStrings.getString(17), "", true));
output.Add(new GPStringPair());
output.Add(new GPStringPair(GPStrings.getString(18), string.Format("{0}...", GPAppHelper.GetNaksatraChildSylable(d.nNaksatra, Convert.ToInt32(d.nNaksatraElapse / 25.0)))));
output.Add(new GPStringPair(GPStrings.getString(19), string.Format("{0}...", GPAppHelper.GetRasiChildSylable(d.nMoonRasi))));
}
vc.Today();
GPVedicTime va = new GPVedicTime();
GPGregorianTime vctemp;
va.tithi = d.nTithi;
va.masa = d.nMasa;
va.gyear = GPGaurabdaYear.getGaurabdaYear(vc, location);
if (va.gyear < d.nGaurabdaYear)
{
va.gyear = d.nGaurabdaYear;
}
int countC = GPUserDefaults.IntForKey("appday.celebs", 3);
if (countC > 0)
{
output.Add(new GPStringPair());
output.Add(new GPStringPair(GPStrings.getString(24), "", true));
output.Add(new GPStringPair());
}
int m = 0;
for (int i = 0; i < 6; i++)
{
GPEngine.VATIMEtoVCTIME(va, out vctemp, location);
if (va.gyear > d.nGaurabdaYear)
{
if (m < countC)
{
output.Add(new GPStringPair(string.Format("{0} {1}", GPStrings.getString(994), va.gyear), vctemp.ToString()));
m++;
}
}
va.gyear++;
}
}
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);
}
/*********************************************************************/
/* Calculates Date of given Tithi */
/*********************************************************************/
public static GPGregorianTime CalcTithiDate(int nGYear, int nMasa, int nPaksa, int nTithi, GPLocationProvider earth)
{
int i = 0, gy = 0;
GPGregorianTime d = new GPGregorianTime(earth);
GPAstroData day = new GPAstroData();
int tithi = 0;
int counter = 0;
uint tmp = 0;
if (nGYear >= 464 && nGYear < 572)
{
tmp = GPGaurabdaYear.gGaurBeg[(nGYear - 464) * 26 + nMasa * 2 + nPaksa];
d.setDate(Convert.ToInt32(tmp & 0xfffc00) >> 10,
Convert.ToInt32(tmp & 0x3e0) >> 5,
Convert.ToInt32(tmp & 0x1f));
d.NextDay();
day.calculateDayData(d, earth);
day.nMasa = day.determineMasa(d, out gy);
day.nGaurabdaYear = gy;
}
else
{
//d = GetFirstDayOfYear(earth, nGYear + 1486);
d.setDate(nGYear + 1486, 2 + nMasa, 15);
if (d.getMonth() > 12)
{
d.setDate(d.getYear() + 1, d.getMonth() - 12, 0);
}
d.setDayHours(0.5);
i = 0;
do
{
d.AddDays(13);
day.calculateDayData(d, earth);
day.nMasa = day.determineMasa(d, out gy);
day.nGaurabdaYear = gy;
i++;
}while (((day.nPaksa != nPaksa) || (day.nMasa != nMasa)) && (i <= 30));
}
if (i >= 30)
{
d.Clear();
return(d);
}
// we found masa and paksa
// now we have to find tithi
tithi = nTithi + nPaksa * 15;
if (day.nTithi == tithi)
{
// loc1
// find tithi juncts in this day and according to that times,
// look in previous or next day for end and start of this tithi
d.PreviousDay();
day.calculateDayData(d, earth);
if ((day.nTithi > tithi) && (day.nPaksa != nPaksa))
{
d.NextDay();
}
return(d);
}
if (day.nTithi < tithi)
{
// do increment of date until nTithi == tithi
// but if nTithi > tithi
// then do decrement of date
counter = 0;
while (counter < 16)
{
d.NextDay();
day.calculateDayData(d, earth);
if (day.nTithi == tithi)
{
return(d);
}
if ((day.nTithi < tithi) && (day.nPaksa != nPaksa))
{
return(d);
}
if (day.nTithi > tithi)
{
return(d);
}
counter++;
}
// somewhere is error
d.Clear();
return(d);
}
else
{
// do decrement of date until nTithi <= tithi
counter = 0;
while (counter < 16)
{
d.PreviousDay();
day.calculateDayData(d, earth);
if (day.nTithi == tithi)
{
return(d);
}
if ((day.nTithi > tithi) && (day.nPaksa != nPaksa))
{
d.NextDay();
return(d);
}
if (day.nTithi < tithi)
{
d.NextDay();
return(d);
}
counter++;
}
// somewhere is error
d.Clear();
return(d);
}
// now we know the type of day-accurancy
// nType = 0 means, that we dont found a day
// nType = 1 means, we find day, when tithi was present at sunrise
// nType = 2 means, we found day, when tithi started after sunrise
// but ended before next sunrise
//
}
