def formatPlainText(self, stream):
d = self.details
vc = GCGregorianDate(date=self.eventTime)
m_earth = self.m_location.GetEarthData()
sb = GCStringBuilder(stream)
sb.Format = SBTF_TEXT
sb.AppendLine(GCStrings.getString(25))
sb.AppendLine("")
sb.AppendLine("{:15s} : {} {} {}".format(
GCStrings.getString(7), vc.day,
GCStrings.GetMonthAbreviation(vc.month), vc.year))
sb.AppendLine("{:15s} : {}:{:02d}".format(GCStrings.getString(8),
vc.GetHour(),
vc.GetMinuteRound()))
sb.AppendLine("")
sb.AppendLine("{:15s} : {}".format(GCStrings.getString(9),
self.m_location.m_strName))
sb.AppendLine("{:15s} : {}".format(GCStrings.getString(10),
self.m_location.m_strLatitude))
sb.AppendLine("{:15s} : {}".format(GCStrings.getString(11),
self.m_location.m_strLongitude))
sb.AppendLine("{:15s} : {}".format(GCStrings.getString(12),
self.m_location.m_strTimeZone))
sb.AppendLine("{:15s} : N/A".format("DST"))
sb.AppendLine("")
sb.AppendLine("{:15s} : {}".format(GCStrings.getString(13),
GCStrings.GetTithiName(d.nTithi)))
sb.AppendLine("{:15s} : {:.2f} %".format(GCStrings.getString(14),
d.nTithiElapse))
sb.AppendLine("{:15s} : {}".format(
GCStrings.getString(15), GCStrings.GetNaksatraName(d.nNaksatra)))
sb.AppendLine("{:15s} : {:.2f} % ({} pada)".format(
GCStrings.getString(16), d.nNaksatraElapse,
GCStrings.getString(811 + int(d.nNaksatraElapse / 25.0))))
sb.AppendLine("{:15s} : {} ({})".format(
"Moon Rasi", GCStrings.GetSankrantiName(d.nMoonRasi),
GCStrings.GetSankrantiNameEn(d.nMoonRasi)))
sb.AppendLine("{:15s} : {} ({})".format(
"Sun Rasi", GCStrings.GetSankrantiName(d.nSunRasi),
GCStrings.GetSankrantiNameEn(d.nSunRasi)))
sb.AppendLine("{:15s} : {}".format(GCStrings.getString(20),
GCStrings.GetPaksaName(d.nPaksa)))
if (self.b_adhika == True):
sb.AppendLine("{:15s} : {} {}".format(
GCStrings.getString(22), GCStrings.GetMasaName(d.nMasa),
GCStrings.getString(21)))
else:
sb.AppendLine("{:15s} : {}".format(GCStrings.getString(22),
GCStrings.GetMasaName(d.nMasa)))
sb.AppendLine("{:15s} : {}".format(GCStrings.getString(23),
d.nGaurabdaYear))
if (GCDisplaySettings.getValue(48)):
sb.AppendLine()
sb.AppendLine(GCStrings.getString(17))
sb.AppendLine()
sb.AppendLine("%25s : {}... ".format(
GCStrings.getString(18),
GCStrings.GetNaksatraChildSylable(
d.nNaksatra, int(d.nNaksatraElapse / 25.0))))
sb.AppendLine("%25s : {}... ".format(
GCStrings.getString(19),
GCStrings.GetRasiChildSylable(d.nMoonRasi)))
sb.AppendLine()
sb.AppendLine(GCStrings.getString(24))
sb.AppendLine()
for o in range(TRESULT_APP_CELEBS):
sb.AppendLine(" Gaurabda {:3d} : {} ".format(
self.celeb_gy[o], self.celeb_date[o]))
sb.AppendNote()
class TAppDay:
def __init__(self):
self.m_location = GCLocation()
self.eventTime = GCGregorianDate()
self.details = GCDayData()
self.b_adhika = False
self.celeb_gy = [0] * TRESULT_APP_CELEBS
self.celeb_date = [
GCGregorianDate() for i in range(TRESULT_APP_CELEBS)
]
def calculateAppDay(self, location, eventDate):
d = self.details
vc = GCGregorianDate(date=eventDate)
vcsun = GCGregorianDate(date=eventDate)
dprev = GCGregorianDate()
dnext = GCGregorianDate()
m_earth = location.GetEarthData()
self.b_adhika = False
self.eventTime.Set(eventDate)
self.m_location.Set(location)
vcsun.shour -= vcsun.tzone / 24.0
vcsun.NormalizeValues()
vcsun.tzone = 0.0
d.sun.SunPosition(vcsun, m_earth, vcsun.shour - 0.5)
d.moon.Calculate(vcsun.GetJulianComplete(), m_earth)
d.msDistance = GCMath.putIn360(d.moon.longitude_deg -
d.sun.longitude_deg - 180.0)
d.msAyanamsa = GCAyanamsha.GetAyanamsa(vc.GetJulianComplete())
# tithi
dd = d.msDistance / 12.0
d.nTithi = int(floor(dd))
d.nTithiElapse = (dd - floor(dd)) * 100.0
# naksatra
dd = GCMath.putIn360(d.moon.longitude_deg - d.msAyanamsa)
dd = (dd * 3.0) / 40.0
d.nNaksatra = int(floor(dd))
d.nNaksatraElapse = (dd - floor(dd)) * 100.0
d.nMasa = d.MasaCalc(vc, m_earth)
d.nMoonRasi = GCRasi.GetRasi(d.moon.longitude_deg, d.msAyanamsa)
d.nSunRasi = GCRasi.GetRasi(d.sun.longitude_deg, d.msAyanamsa)
if (d.nMasa == ADHIKA_MASA):
d.nMasa = GCRasi.GetRasi(d.sun.longitude_deg, d.msAyanamsa)
self.b_adhika = True
vc.Today()
vc.tzone = m_earth.tzone
m = 0
va = GCGaurabdaDate()
vctemp = GCGregorianDate()
va.tithi = d.nTithi
va.masa = d.nMasa
va.gyear = GCCalendar.GetGaurabdaYear(vc, m_earth)
if (va.gyear < d.nGaurabdaYear):
va.gyear = d.nGaurabdaYear
for i in range(6):
GCCalendar.Gaurabda2Gregorian(va, vctemp, m_earth)
if (va.gyear > d.nGaurabdaYear):
if (m < TRESULT_APP_CELEBS):
self.celeb_date[m].Set(vctemp)
self.celeb_gy[m] = va.gyear
m += 1
va.gyear += 1
def formatPlainText(self, stream):
d = self.details
vc = GCGregorianDate(date=self.eventTime)
m_earth = self.m_location.GetEarthData()
sb = GCStringBuilder(stream)
sb.Format = SBTF_TEXT
sb.AppendLine(GCStrings.getString(25))
sb.AppendLine("")
sb.AppendLine("{:15s} : {} {} {}".format(
GCStrings.getString(7), vc.day,
GCStrings.GetMonthAbreviation(vc.month), vc.year))
sb.AppendLine("{:15s} : {}:{:02d}".format(GCStrings.getString(8),
vc.GetHour(),
vc.GetMinuteRound()))
sb.AppendLine("")
sb.AppendLine("{:15s} : {}".format(GCStrings.getString(9),
self.m_location.m_strName))
sb.AppendLine("{:15s} : {}".format(GCStrings.getString(10),
self.m_location.m_strLatitude))
sb.AppendLine("{:15s} : {}".format(GCStrings.getString(11),
self.m_location.m_strLongitude))
sb.AppendLine("{:15s} : {}".format(GCStrings.getString(12),
self.m_location.m_strTimeZone))
sb.AppendLine("{:15s} : N/A".format("DST"))
sb.AppendLine("")
sb.AppendLine("{:15s} : {}".format(GCStrings.getString(13),
GCStrings.GetTithiName(d.nTithi)))
sb.AppendLine("{:15s} : {:.2f} %".format(GCStrings.getString(14),
d.nTithiElapse))
sb.AppendLine("{:15s} : {}".format(
GCStrings.getString(15), GCStrings.GetNaksatraName(d.nNaksatra)))
sb.AppendLine("{:15s} : {:.2f} % ({} pada)".format(
GCStrings.getString(16), d.nNaksatraElapse,
GCStrings.getString(811 + int(d.nNaksatraElapse / 25.0))))
sb.AppendLine("{:15s} : {} ({})".format(
"Moon Rasi", GCStrings.GetSankrantiName(d.nMoonRasi),
GCStrings.GetSankrantiNameEn(d.nMoonRasi)))
sb.AppendLine("{:15s} : {} ({})".format(
"Sun Rasi", GCStrings.GetSankrantiName(d.nSunRasi),
GCStrings.GetSankrantiNameEn(d.nSunRasi)))
sb.AppendLine("{:15s} : {}".format(GCStrings.getString(20),
GCStrings.GetPaksaName(d.nPaksa)))
if (self.b_adhika == True):
sb.AppendLine("{:15s} : {} {}".format(
GCStrings.getString(22), GCStrings.GetMasaName(d.nMasa),
GCStrings.getString(21)))
else:
sb.AppendLine("{:15s} : {}".format(GCStrings.getString(22),
GCStrings.GetMasaName(d.nMasa)))
sb.AppendLine("{:15s} : {}".format(GCStrings.getString(23),
d.nGaurabdaYear))
if (GCDisplaySettings.getValue(48)):
sb.AppendLine()
sb.AppendLine(GCStrings.getString(17))
sb.AppendLine()
sb.AppendLine("%25s : {}... ".format(
GCStrings.getString(18),
GCStrings.GetNaksatraChildSylable(
d.nNaksatra, int(d.nNaksatraElapse / 25.0))))
sb.AppendLine("%25s : {}... ".format(
GCStrings.getString(19),
GCStrings.GetRasiChildSylable(d.nMoonRasi)))
sb.AppendLine()
sb.AppendLine(GCStrings.getString(24))
sb.AppendLine()
for o in range(TRESULT_APP_CELEBS):
sb.AppendLine(" Gaurabda {:3d} : {} ".format(
self.celeb_gy[o], self.celeb_date[o]))
sb.AppendNote()
def formatRtf(self, stream):
d = self.details
vc = GCGregorianDate(date=self.eventTime)
m_earth = self.m_location.GetEarthData()
sb = GCStringBuilder(stream)
sb.fontSizeH1 = GCLayoutData.textSizeH1
sb.fontSizeH2 = GCLayoutData.textSizeH2
sb.fontSizeText = GCLayoutData.textSizeText
sb.fontSizeNote = GCLayoutData.textSizeNote
sb.Format = SBTF_RTF
sb.AppendDocumentHeader()
sb.AppendHeader1(GCStrings.getString(25))
sb.AppendLine("\\tab {} : {{\\b {} {} {} }}".format(
GCStrings.getString(7), vc.day,
GCStrings.GetMonthAbreviation(vc.month), vc.year))
sb.AppendLine("\\tab {} : {{\\b {}:{:02d} }}".format(
GCStrings.getString(8), vc.GetHour(), vc.GetMinuteRound()))
sb.AppendLine("")
sb.AppendLine("\\tab {} : {{\\b {} }}".format(
GCStrings.getString(9), self.m_location.m_strName))
sb.AppendLine("\\tab {} : {{\\b {} }}".format(
GCStrings.getString(10), self.m_location.m_strLatitude))
sb.AppendLine("\\tab {} : {{\\b {} }}".format(
GCStrings.getString(11), self.m_location.m_strLongitude))
sb.AppendLine("\\tab {} : {{\\b {} }}".format(
GCStrings.getString(12),
GCTimeZone.GetTimeZoneName(self.m_location.m_nTimezoneId)))
sb.AppendLine("\\tab {} : {{\\b N/A }}".format("DST"))
sb.AppendLine("")
sb.AppendLine("\\tab {} : {{\\b {} }}".format(
GCStrings.getString(13), GCStrings.GetTithiName(d.nTithi)))
sb.AppendLine("\\tab {} : {{\\b {:.2f} % }}".format(
GCStrings.getString(14), d.nTithiElapse))
sb.AppendLine("\\tab {} : {{\\b {} }}".format(
GCStrings.getString(15), GCStrings.GetNaksatraName(d.nNaksatra)))
sb.AppendLine("\\tab {} : {{\\b {:.2f} % ({} pada) }}".format(
GCStrings.getString(16), d.nNaksatraElapse,
GCStrings.getString(811 + int(d.nNaksatraElapse / 25.0))))
sb.AppendLine("\\tab {} : {{\\b {} ({}) }}".format(
"Moon Rasi", GCStrings.GetSankrantiName(d.nMoonRasi),
GCStrings.GetSankrantiNameEn(d.nMoonRasi)))
sb.AppendLine("\\tab {} : {{\\b {} ({}) }}".format(
"Sun Rasi", GCStrings.GetSankrantiName(d.nSunRasi),
GCStrings.GetSankrantiNameEn(d.nSunRasi)))
sb.AppendLine("\\tab {} : {{\\b {} }}".format(
GCStrings.getString(20), GCStrings.GetPaksaName(d.nPaksa)))
if (self.b_adhika == True):
sb.AppendLine("\\tab {} : {{\\b {} {} }}".format(
GCStrings.getString(22), GCStrings.GetMasaName(d.nMasa),
GCStrings.getString(21)))
else:
sb.AppendLine("\\tab {} : {{\\b {} }}".format(
GCStrings.getString(22), GCStrings.GetMasaName(d.nMasa)))
sb.AppendLine("\\tab {} : {{\\b {} }}".format(GCStrings.getString(23),
d.nGaurabdaYear))
if (GCDisplaySettings.getValue(48)):
sb.AppendLine("")
sb.AppendHeader2(GCStrings.getString(17))
sb.AppendLine("")
sb.AppendLine("\\tab {} : {{\\b {}... }}".format(
GCStrings.getString(18),
GCStrings.GetNaksatraChildSylable(
d.nNaksatra, int(d.nNaksatraElapse / 25.0))))
sb.AppendLine("\\tab {} : {{\\b {}... }}".format(
GCStrings.getString(19),
GCStrings.GetRasiChildSylable(d.nMoonRasi)))
sb.AppendLine("{{\\fs{} {} }}".format(GCLayoutData.textSizeH2,
GCStrings.getString(24)))
sb.AppendLine("")
for o in range(TRESULT_APP_CELEBS):
sb.AppendLine("\\tab Gaurabda {} : {{\\b {} }}".format(
self.celeb_gy[o], self.celeb_date[o]))
sb.AppendDocumentTail()
def formatXml(self, stream):
d = self.details
vc = GCGregorianDate(date=self.eventTime)
m_earth = self.m_location.GetEarthData()
loc = self.m_location
bDuringAdhika = False
stream.write('''<xml>
<request name="AppDay" version="{}">
<arg name="longitude" value="{}" />
<arg name="latitude" value="{}" />
<arg name="timezone" value="{}" />
<arg name="year" value="{}" />
<arg name="month" value="{}" />
<arg name="day" value="{}" />
<arg name="hour" value="{}" />
<arg name="minute" value="{}" />
</request>'''.format(GCStrings.getString(130), loc.m_fLongitude,
loc.m_fLatitude, loc.m_fTimezone, self.eventTime.year,
self.eventTime.month, self.eventTime.day,
self.eventTime.GetHour(),
self.eventTime.GetMinuteRound()))
npada = int(floor(d.nNaksatraElapse / 25.0)) + 1
if (npada > 4): npada = 4
is_adhika = "yes" if bDuringAdhika else "no"
stream.write(
"\t<result name=\"AppDay\" >\n\t\t<tithi name=\"{}\" elapse=\"%f\" />\n\t\t<naksatra name=\"{}\" elapse=\"%f\" pada=\"{}\"/>\n\t\t<paksa name=\"{}\" />\n\t\t<masa name=\"{}\" adhikamasa=\"{}\"/>\n\t\t<gaurabda value=\"{}\" />\n"
.format(GCStrings.GetTithiName(d.nTithi), d.nTithiElapse,
GCStrings.GetNaksatraName(d.nNaksatra), d.nNaksatraElapse,
npada, GCStrings.GetPaksaName(d.nPaksa),
GCStrings.GetMasaName(d.nMasa), is_adhika,
d.nGaurabdaYear))
stream.write("\t\t<celebrations>\n")
for i in range(TRESULT_APP_CELEBS):
stream.write(
"\t\t\t<celebration gaurabda=\"{}\" day=\"{}\" month=\"{}\" monthabr=\"{}\" year=\"{}\" />\n"
.format(
self.celeb_gy[i], self.celeb_date[i].day,
self.celeb_date[i].month,
GCStrings.GetMonthAbreviation(self.celeb_date[i].month),
self.celeb_date[i].year))
stream.write("\t\t</celebrations>\n\t</result>\n</xml>\n")
def writeHtml(self, stream):
d = self.details
vc = GCGregorianDate(date=self.eventTime)
m_earth = self.m_location.GetEarthData()
stream.write("<html><head><title>Appearance day</title>")
stream.write(
"<style>\n<!--\nbody {\n font-family:Verdana;\n font-size:11pt;\n}\n\ntd.hed {\n font-size:11pt;\n font-weight:bold;\n"
)
stream.write(
" background:#aaaaaa;\n color:white;\n text-align:center;\n vertical-align:center;\n padding-left:15pt;\n padding-right:15pt;\n"
)
stream.write(
" padding-top:5pt;\n padding-bottom:5pt;\n}\n-->\n</style>\n")
stream.write("</head>\n\n<body>\n")
stream.write("<h2 align=center>Appearance day Calculation</h2>")
stream.write("<table align=center><tr><td valign=top>\n\n")
stream.write("<table align=center>")
stream.write("<tr><td colspan=3 class=hed>Details</td></tr>\n")
stream.write("<tr><td colspan=2>{}</td><td> {}</td></tr>\n".format(
GCStrings.getString(7), vc))
stream.write(
"<tr><td colspan=2>{}</td><td> {}:{:02d}</td></tr>\n\n".format(
GCStrings.getString(8), vc.GetHour(), vc.GetMinuteRound()))
stream.write("<tr><td colspan=2>{}</td><td> {}</td></tr>\n".format(
GCStrings.getString(9), self.m_location.m_strName))
stream.write("<tr><td colspan=2>{}</td><td> {}</td></tr>\n".format(
GCStrings.getString(10),
GCEarthData.GetTextLatitude(self.m_location.m_fLatitude)))
stream.write("<tr><td colspan=2>{}</td><td> {}</td></tr>\n".format(
GCStrings.getString(11),
GCEarthData.GetTextLongitude(self.m_location.m_fLongitude)))
stream.write("<tr><td colspan=2>{}</td><td> ".format(
GCStrings.getString(12)))
stream.write(
GCTimeZone.GetTimeZoneOffsetText(self.m_location.m_fTimezone))
stream.write("</td></tr>\n")
stream.write("<tr><td colspan=2>DST</td><td>N/A</td></tr>\n")
stream.write("<tr><td colspan=2>{}</td><td> {}</td></tr>\n".format(
GCStrings.getString(13), GCStrings.GetTithiName(d.nTithi)))
stream.write(
"<tr><td colspan=2>{}</td><td> {:.2f} %</td></tr>\n".format(
GCStrings.getString(14), d.nTithiElapse))
stream.write("<tr><td colspan=2>{}</td><td> {}</td></tr>\n".format(
GCStrings.getString(15), GCStrings.GetNaksatraName(d.nNaksatra)))
stream.write(
"<tr><td colspan=2>{}</td><td> {:.2f} %</td></tr>\n".format(
GCStrings.getString(16), d.nNaksatraElapse))
stream.write("<tr><td colspan=2>{}</td><td> {}</td></tr>\n".format(
GCStrings.getString(20), GCStrings.GetPaksaName(d.nPaksa)))
if (self.b_adhika == True):
stream.write(
"<tr><td colspan=2>{}</td><td> {} {}</td></tr>\n".format(
GCStrings.getString(22), GCStrings.GetMasaName(d.nMasa),
GCStrings.getString(21)))
else:
stream.write("<tr><td colspan=2>{}</td><td> {}</td></tr>\n".format(
GCStrings.getString(22), GCStrings.GetMasaName(d.nMasa)))
stream.write("<tr><td colspan=2>{}</td><td> {}</td></tr>\n\n".format(
GCStrings.getString(23), d.nGaurabdaYear))
stream.write("</table></td><td valign=top><table>")
stream.write("<tr><td colspan=3 class=hed>{}</td></tr>\n".format(
GCStrings.getString(24)))
for o in range(TRESULT_APP_CELEBS):
stream.write(
"<tr><td>Gaurabda {}</td><td> : </td><td><b>{}</b></td></tr>"
.format(self.celeb_gy[o], self.celeb_date[o]))
stream.write("</table>")
stream.write("</td></tr></table>\n\n")
stream.write(
"<hr align=center width=\"50%\">\n<p style=\'text-align:center;font-size:8pt\'>Generated by {}</p>"
.format(GCStrings.getString(130)))
stream.write("</body></html>")
def write(self, stream, format='html', layout='list'):
if format == 'plain':
self.formatPlainText(stream)
elif format == 'rtf':
self.formatRtf(stream)
elif format == 'xml':
self.formatXml(stream)
elif format == 'html':
self.writeHtml(stream)
def writeHtml(self, stream):
d = self.details
vc = GCGregorianDate(date=self.eventTime)
m_earth = self.m_location.GetEarthData()
stream.write("<html><head><title>Appearance day</title>")
stream.write(
"<style>\n<!--\nbody {\n font-family:Verdana;\n font-size:11pt;\n}\n\ntd.hed {\n font-size:11pt;\n font-weight:bold;\n"
)
stream.write(
" background:#aaaaaa;\n color:white;\n text-align:center;\n vertical-align:center;\n padding-left:15pt;\n padding-right:15pt;\n"
)
stream.write(
" padding-top:5pt;\n padding-bottom:5pt;\n}\n-->\n</style>\n")
stream.write("</head>\n\n<body>\n")
stream.write("<h2 align=center>Appearance day Calculation</h2>")
stream.write("<table align=center><tr><td valign=top>\n\n")
stream.write("<table align=center>")
stream.write("<tr><td colspan=3 class=hed>Details</td></tr>\n")
stream.write("<tr><td colspan=2>{}</td><td> {}</td></tr>\n".format(
GCStrings.getString(7), vc))
stream.write(
"<tr><td colspan=2>{}</td><td> {}:{:02d}</td></tr>\n\n".format(
GCStrings.getString(8), vc.GetHour(), vc.GetMinuteRound()))
stream.write("<tr><td colspan=2>{}</td><td> {}</td></tr>\n".format(
GCStrings.getString(9), self.m_location.m_strName))
stream.write("<tr><td colspan=2>{}</td><td> {}</td></tr>\n".format(
GCStrings.getString(10),
GCEarthData.GetTextLatitude(self.m_location.m_fLatitude)))
stream.write("<tr><td colspan=2>{}</td><td> {}</td></tr>\n".format(
GCStrings.getString(11),
GCEarthData.GetTextLongitude(self.m_location.m_fLongitude)))
stream.write("<tr><td colspan=2>{}</td><td> ".format(
GCStrings.getString(12)))
stream.write(
GCTimeZone.GetTimeZoneOffsetText(self.m_location.m_fTimezone))
stream.write("</td></tr>\n")
stream.write("<tr><td colspan=2>DST</td><td>N/A</td></tr>\n")
stream.write("<tr><td colspan=2>{}</td><td> {}</td></tr>\n".format(
GCStrings.getString(13), GCStrings.GetTithiName(d.nTithi)))
stream.write(
"<tr><td colspan=2>{}</td><td> {:.2f} %</td></tr>\n".format(
GCStrings.getString(14), d.nTithiElapse))
stream.write("<tr><td colspan=2>{}</td><td> {}</td></tr>\n".format(
GCStrings.getString(15), GCStrings.GetNaksatraName(d.nNaksatra)))
stream.write(
"<tr><td colspan=2>{}</td><td> {:.2f} %</td></tr>\n".format(
GCStrings.getString(16), d.nNaksatraElapse))
stream.write("<tr><td colspan=2>{}</td><td> {}</td></tr>\n".format(
GCStrings.getString(20), GCStrings.GetPaksaName(d.nPaksa)))
if (self.b_adhika == True):
stream.write(
"<tr><td colspan=2>{}</td><td> {} {}</td></tr>\n".format(
GCStrings.getString(22), GCStrings.GetMasaName(d.nMasa),
GCStrings.getString(21)))
else:
stream.write("<tr><td colspan=2>{}</td><td> {}</td></tr>\n".format(
GCStrings.getString(22), GCStrings.GetMasaName(d.nMasa)))
stream.write("<tr><td colspan=2>{}</td><td> {}</td></tr>\n\n".format(
GCStrings.getString(23), d.nGaurabdaYear))
stream.write("</table></td><td valign=top><table>")
stream.write("<tr><td colspan=3 class=hed>{}</td></tr>\n".format(
GCStrings.getString(24)))
for o in range(TRESULT_APP_CELEBS):
stream.write(
"<tr><td>Gaurabda {}</td><td> : </td><td><b>{}</b></td></tr>"
.format(self.celeb_gy[o], self.celeb_date[o]))
stream.write("</table>")
stream.write("</td></tr></table>\n\n")
stream.write(
"<hr align=center width=\"50%\">\n<p style=\'text-align:center;font-size:8pt\'>Generated by {}</p>"
.format(GCStrings.getString(130)))
stream.write("</body></html>")
def formatRtf(self, stream):
d = self.details
vc = GCGregorianDate(date=self.eventTime)
m_earth = self.m_location.GetEarthData()
sb = GCStringBuilder(stream)
sb.fontSizeH1 = GCLayoutData.textSizeH1
sb.fontSizeH2 = GCLayoutData.textSizeH2
sb.fontSizeText = GCLayoutData.textSizeText
sb.fontSizeNote = GCLayoutData.textSizeNote
sb.Format = SBTF_RTF
sb.AppendDocumentHeader()
sb.AppendHeader1(GCStrings.getString(25))
sb.AppendLine("\\tab {} : {{\\b {} {} {} }}".format(
GCStrings.getString(7), vc.day,
GCStrings.GetMonthAbreviation(vc.month), vc.year))
sb.AppendLine("\\tab {} : {{\\b {}:{:02d} }}".format(
GCStrings.getString(8), vc.GetHour(), vc.GetMinuteRound()))
sb.AppendLine("")
sb.AppendLine("\\tab {} : {{\\b {} }}".format(
GCStrings.getString(9), self.m_location.m_strName))
sb.AppendLine("\\tab {} : {{\\b {} }}".format(
GCStrings.getString(10), self.m_location.m_strLatitude))
sb.AppendLine("\\tab {} : {{\\b {} }}".format(
GCStrings.getString(11), self.m_location.m_strLongitude))
sb.AppendLine("\\tab {} : {{\\b {} }}".format(
GCStrings.getString(12),
GCTimeZone.GetTimeZoneName(self.m_location.m_nTimezoneId)))
sb.AppendLine("\\tab {} : {{\\b N/A }}".format("DST"))
sb.AppendLine("")
sb.AppendLine("\\tab {} : {{\\b {} }}".format(
GCStrings.getString(13), GCStrings.GetTithiName(d.nTithi)))
sb.AppendLine("\\tab {} : {{\\b {:.2f} % }}".format(
GCStrings.getString(14), d.nTithiElapse))
sb.AppendLine("\\tab {} : {{\\b {} }}".format(
GCStrings.getString(15), GCStrings.GetNaksatraName(d.nNaksatra)))
sb.AppendLine("\\tab {} : {{\\b {:.2f} % ({} pada) }}".format(
GCStrings.getString(16), d.nNaksatraElapse,
GCStrings.getString(811 + int(d.nNaksatraElapse / 25.0))))
sb.AppendLine("\\tab {} : {{\\b {} ({}) }}".format(
"Moon Rasi", GCStrings.GetSankrantiName(d.nMoonRasi),
GCStrings.GetSankrantiNameEn(d.nMoonRasi)))
sb.AppendLine("\\tab {} : {{\\b {} ({}) }}".format(
"Sun Rasi", GCStrings.GetSankrantiName(d.nSunRasi),
GCStrings.GetSankrantiNameEn(d.nSunRasi)))
sb.AppendLine("\\tab {} : {{\\b {} }}".format(
GCStrings.getString(20), GCStrings.GetPaksaName(d.nPaksa)))
if (self.b_adhika == True):
sb.AppendLine("\\tab {} : {{\\b {} {} }}".format(
GCStrings.getString(22), GCStrings.GetMasaName(d.nMasa),
GCStrings.getString(21)))
else:
sb.AppendLine("\\tab {} : {{\\b {} }}".format(
GCStrings.getString(22), GCStrings.GetMasaName(d.nMasa)))
sb.AppendLine("\\tab {} : {{\\b {} }}".format(GCStrings.getString(23),
d.nGaurabdaYear))
if (GCDisplaySettings.getValue(48)):
sb.AppendLine("")
sb.AppendHeader2(GCStrings.getString(17))
sb.AppendLine("")
sb.AppendLine("\\tab {} : {{\\b {}... }}".format(
GCStrings.getString(18),
GCStrings.GetNaksatraChildSylable(
d.nNaksatra, int(d.nNaksatraElapse / 25.0))))
sb.AppendLine("\\tab {} : {{\\b {}... }}".format(
GCStrings.getString(19),
GCStrings.GetRasiChildSylable(d.nMoonRasi)))
sb.AppendLine("{{\\fs{} {} }}".format(GCLayoutData.textSizeH2,
GCStrings.getString(24)))
sb.AppendLine("")
for o in range(TRESULT_APP_CELEBS):
sb.AppendLine("\\tab Gaurabda {} : {{\\b {} }}".format(
self.celeb_gy[o], self.celeb_date[o]))
sb.AppendDocumentTail()