def lunarEclipseGlobal(jd, backward):
""" Returns the jd details of previous or next global lunar eclipse. """
sweList = swisseph.lun_eclipse_when(jd, backward=backward)
return {
'maximum': sweList[1][0],
'partial_begin': sweList[1][2],
'partial_end': sweList[1][3],
'totality_begin': sweList[1][4],
'totality_end': sweList[1][5],
'penumbral_begin': sweList[1][6],
'penumbral_end': sweList[1][7],
}
def calculateNearestEclipse(ecplanet,
chrt,
year,
month,
day,
hour,
minute=0,
second=0):
out = []
time = hour + minute / 60.0 + second / 3600.0
tjd = swisseph.julday(year, month, day, time, astrology.SE_GREG_CAL)
# Calculate the global eclipse nearest to the specified date
if ecplanet == 'sun':
retflag = swisseph.sol_eclipse_when_glob(
tjd, astrology.SEFLG_SWIEPH, astrology.SE_ECL_ALLTYPES_SOLAR, True)
planet_id = astrology.SE_SUN
elif ecplanet == 'moon':
retflag = swisseph.lun_eclipse_when(tjd, astrology.SEFLG_SWIEPH,
astrology.SE_ECL_ALLTYPES_LUNAR,
True)
planet_id = astrology.SE_MOON
else:
print('No valid eclipse ecplanet input at calculateNearestEclipse\n')
exit(1)
# Get date and eclipse type
ejd = retflag[1][0]
eclflag = retflag[0][0]
# Convert julian to gregorian date
eyear, emonth, eday, ejtime = swisseph.revjul(ejd, astrology.SE_GREG_CAL)
ehour, eminute, esecond = util.decToDeg(ejtime)
if (eclflag & astrology.SE_ECL_TOTAL):
ecltype = 'total'
elif (eclflag & astrology.SE_ECL_ANNULAR):
ecltype = 'annular'
elif (eclflag & astrology.SE_ECL_ANNULAR_TOTAL):
ecltype = 'anntotal'
elif (eclflag & astrology.SE_ECL_PARTIAL):
ecltype = 'partial'
elif (eclflag & astrology.SE_ECL_PENUMBRAL):
ecltype = 'penumbral'
else:
ecltype = ''
ecldate = 'GMT: %s - %s - %d-%d-%d %d:%d:%d' % (
ecplanet, ecltype, eyear, emonth, eday, ehour, eminute, esecond)
# Calculate the sun position for GMT
if eclipses_cache.has_key(ecldate):
lon = eclipses_cache[ecldate]
else:
day_time = chart.event.DateTime(eyear, emonth, eday, ehour, eminute,
esecond, False, 0, 0, False, 0, 0, 0,
chrt.place)
day_chart = chart.Chart(chrt.name, chrt.male, day_time, chrt.place,
chrt.htype, chrt.notes, chrt.options)
lon = day_chart.planets.planets[planet_id].data[planets.Planet.LONG]
eclipses_cache[ecldate] = lon
# add to out buffer
out.append("%.2f\t%s\t" % (lon, ecltype))
# send out
sys.stdout.write(''.join(out))
def main():
city_name = sys.argv[1]
latitude = sexastr2deci(sys.argv[2])
longitude = sexastr2deci(sys.argv[3])
tz = sys.argv[4]
start_year = int(sys.argv[5])
year = start_year
jd=swisseph.julday(year,1,1,0)
jd_start=jd
if len(sys.argv)==7:
script = sys.argv[6]
else:
script = 'deva' #Default script is devanagari
swisseph.set_sid_mode(swisseph.SIDM_LAHIRI) #Force Lahiri Ayanamsha
sun_month_day = jd-get_last_dhanur_transit(jd,latitude,longitude)
month_start_after_set = 0
template_file=open('cal_template_compre.tex')
template_lines=template_file.readlines()
for i in range(0,len(template_lines)-3):
print template_lines[i][:-1]
samvatsara_id = (year - 1568)%60 + 1; #distance from prabhava
samvatsara_names = '%s–%s' % (year_names[script][samvatsara_id],
year_names[script][(samvatsara_id%60)+1])
new_yr=mesha_sankranti[script]+'~('+year_names[script][(samvatsara_id%60)+1]+'-'+samvatsara[script]+')'
print '\\mbox{}'
print '{\\font\\x="Candara" at 60 pt\\x %d\\\\[0.5cm]}' % year
print '\\mbox{\\font\\x="Sanskrit 2003:script=deva" at 48 pt\\x %s}\\\\[0.5cm]' % samvatsara_names
print '{\\font\\x="Candara" at 48 pt\\x \\uppercase{%s}\\\\[0.5cm]}' % city_name
print '\hrule'
#INITIALISE VARIABLES
jd_sunrise=[None]*368
jd_sunset=[None]*368
jd_moonrise=[None]*368
longitude_moon=[None]*368
longitude_sun=[None]*368
longitude_sun_set=[None]*368
sun_month_id=[None]*368
sun_month=[None]*368
sun_month_rise=[None]*368
moon_month=[None]*368
month_data=[None]*368
tithi_data_string=[None]*368
tithi_sunrise=[None]*368
nakshatram_data_string=[None]*368
nakshatram_sunrise=[None]*368
karanam_data_string=[None]*368
karanam_sunrise=[None]*368
yogam_data_string=[None]*368
yogam_sunrise=[None]*368
weekday=[None]*368
sunrise=[None]*368
sunset=[None]*368
madhya=[None]*368
rahu=[None]*368
yama=[None]*368
festival_day_list={}
festivals=['']*368
weekday_start=swisseph.day_of_week(jd)+1
#swisseph has Mon = 0, non-intuitively!
##################################################
#Compute all parameters -- latitude/longitude etc#
##################################################
for d in range(-1,367):
jd = jd_start-1+d
[y,m,dt,t] = swisseph.revjul(jd)
weekday = (weekday_start -1 + d)%7
local_time = pytz.timezone(tz).localize(datetime(y, m, dt, 6, 0, 0))
#checking @ 6am local - can we do any better?
tz_off=datetime.utcoffset(local_time).seconds/3600.0
#compute offset from UTC
jd_sunrise[d+1]=swisseph.rise_trans(jd_start=jd+1,body=swisseph.SUN,
lon=longitude,lat=latitude,rsmi=swisseph.CALC_RISE|swisseph.BIT_DISC_CENTER)[1][0]
jd_sunset[d+1]=swisseph.rise_trans(jd_start=jd+1,body=swisseph.SUN,
lon=longitude,lat=latitude,rsmi=swisseph.CALC_SET|swisseph.BIT_DISC_CENTER)[1][0]
jd_moonrise[d+1]=swisseph.rise_trans(jd_start=jd+1,body=swisseph.MOON,
lon=longitude,lat=latitude,rsmi=swisseph.CALC_RISE|swisseph.BIT_DISC_CENTER)[1][0]
longitude_sun[d+1]=swisseph.calc_ut(jd_sunrise[d+1],swisseph.SUN)[0]-swisseph.get_ayanamsa(jd_sunrise[d+1])
longitude_moon[d+1]=swisseph.calc_ut(jd_sunrise[d+1],swisseph.MOON)[0]-swisseph.get_ayanamsa(jd_sunrise[d+1])
longitude_sun_set[d+1]=swisseph.calc_ut(jd_sunset[d+1],swisseph.SUN)[0]-swisseph.get_ayanamsa(jd_sunset[d+1])
sun_month_id[d+1] = int(1+math.floor(((longitude_sun_set[d+1])%360)/30.0))
sun_month[d+1] = int(1+math.floor(((longitude_sun_set[d+1])%360)/30.0))
sun_month_rise[d+1] = int(1+math.floor(((longitude_sun[d+1])%360)/30.0))
if(d<=0):
continue
t_sunrise=(jd_sunrise[d]-jd)*24.0+tz_off
t_sunset=(jd_sunset[d]-jd)*24.0+tz_off
#Solar month calculations
if month_start_after_set==1:
sun_month_day = 0
month_start_after_set = 0
if sun_month[d]!=sun_month[d+1]:
sun_month_day = sun_month_day + 1
if sun_month[d]!=sun_month_rise[d+1]:
month_start_after_set=1
[_m,sun_month_end_time] = get_angam_data_string(masa_names[script], 30, jd_sunrise[d],
jd_sunrise[d+1], t_sunrise, longitude_moon[d], longitude_sun[d], longitude_moon[d+1],
longitude_sun[d+1], [0,1], script)
elif sun_month_rise[d]!=sun_month[d]:
#mAsa pirappu!
#sun moves into next rAsi before sunset -- check rules!
sun_month_day = 1
[_m,sun_month_end_time] = get_angam_data_string(masa_names[script], 30, jd_sunrise[d],
jd_sunrise[d+1], t_sunrise, longitude_moon[d], longitude_sun[d], longitude_moon[d+1],
longitude_sun[d+1], [0,1], script)
else:
sun_month_day = sun_month_day + 1
sun_month_end_time = ''
month_data[d] = '\\sunmonth{%s}{%d}{%s}' % (masa_names[script][sun_month[d]],sun_month_day,sun_month_end_time)
#KARADAYAN NOMBU -- easy to check here
if sun_month_end_time !='': #month ends today
if (sun_month[d]==12 and sun_month_day==1) or (sun_month[d]==11 and sun_month_day!=1):
festival_day_list[karadayan_nombu[script]] = [d]
#KOODARA VALLI -- easy to check here
if sun_month[d]==9 and sun_month_day==27:
festival_day_list[koodaravalli[script]]= [d]
#Sunrise/sunset and related stuff (like rahu, yama)
[rhs, rms, rss] = deci2sexa(t_sunrise) #rise hour sun, rise minute sun, rise sec sun
[shs, sms, sss] = deci2sexa(t_sunset)
length_of_day = t_sunset-t_sunrise
yamagandam_start = t_sunrise + (1/8.0)*(yamagandam_octets[weekday]-1)*length_of_day
yamagandam_end = yamagandam_start + (1/8.0)*length_of_day
rahukalam_start = t_sunrise + (1/8.0)*(rahukalam_octets[weekday]-1)*length_of_day
rahukalam_end = rahukalam_start + (1/8.0)*length_of_day
madhyahnikam_start = t_sunrise + (1/5.0)*length_of_day
sunrise[d] = '%02d:%02d' % (rhs,rms)
sunset[d] = '%02d:%02d' % (shs,sms)
madhya[d] = print_time(madhyahnikam_start)
rahu[d] = '%s--%s' % (print_time(rahukalam_start), print_time(rahukalam_end))
yama[d] = '%s--%s' % (print_time(yamagandam_start),print_time(yamagandam_end))
[tithi_sunrise[d],tithi_data_string[d]]=get_angam_data_string(tithi_names[script], 12, jd_sunrise[d],
jd_sunrise[d+1], t_sunrise, longitude_moon[d], longitude_sun[d], longitude_moon[d+1],
longitude_sun[d+1], [1,-1], script)
[nakshatram_sunrise[d], nakshatram_data_string[d]]=get_angam_data_string(nakshatra_names[script], (360.0/27.0),
jd_sunrise[d], jd_sunrise[d+1], t_sunrise, longitude_moon[d], longitude_sun[d],
longitude_moon[d+1], longitude_sun[d+1], [1,0], script)
[karanam_sunrise[d],karanam_data_string[d]]=get_angam_data_string(karanam_names[script], 6, jd_sunrise[d],
jd_sunrise[d+1], t_sunrise, longitude_moon[d], longitude_sun[d], longitude_moon[d+1],
longitude_sun[d+1], [1,-1], script)
[yogam_sunrise[d],yogam_data_string[d]]=get_angam_data_string(yogam_names[script], (360.0/27.0), jd_sunrise[d],
jd_sunrise[d+1], t_sunrise, longitude_moon[d], longitude_sun[d], longitude_moon[d+1],
longitude_sun[d+1], [1,1], script)
#ASSIGN MOON MONTHS
last_month_change = 1
last_moon_month = None
for d in range(1,367):
#Assign moon_month for each day
if(tithi_sunrise[d]==1):
for i in range(last_month_change,d):
#print '%%#Setting moon_month to sun_month_id, for i=%d:%d to %d' %(last_month_change,d-1,sun_month_id[d])
if (sun_month_id[d]==last_moon_month):
moon_month[i] = sun_month_id[d]%12 + 0.5
else:
moon_month[i] = sun_month_id[d]
last_month_change = d
last_moon_month = sun_month_id[d]
elif(tithi_sunrise[d]==2 and tithi_sunrise[d-1]==30):
#prathama tithi was never seen @ sunrise
for i in range(last_month_change,d):
#print '%%@Setting moon_month to sun_month_id, for i=%d:%d to %d (last month = %d)' %(last_month_change,d-1,sun_month_id[d],last_moon_month)
if (sun_month_id[d-1]==last_moon_month):
moon_month[i] = sun_month_id[d-1]%12 + 0.5
else:
moon_month[i] = sun_month_id[d-1]
last_month_change = d
last_moon_month = sun_month_id[d-1]
for i in range(last_month_change,367):
moon_month[i]=sun_month_id[last_month_change-1]+1
#for d in range(1,367):
#jd = jd_start-1+d
#[y,m,dt,t] = swisseph.revjul(jd)
#print '%%#%02d-%02d-%4d: %3d:%s (sunrise tithi=%d) {%s}' % (dt,m,y,d,moon_month[d],tithi_sunrise[d],tithi_data_string[d])
log_file=open('cal_log_%4d.txt' % year,'w')
for d in range(1,367):
jd = jd_start-1+d
[y,m,dt,t] = swisseph.revjul(jd)
log_data = '%02d-%02d-%4d\t[%3d]\tsun_rashi=%8.3f\ttithi=%8.3f\tsun_month=%2d\tmoon_month=%4.1f\n' % (dt,m,y,d,(longitude_sun_set[d]%360)/30.0,get_angam_float(jd_sunrise[d],12.0,[1,-1]),sun_month[d],moon_month[d])
log_file.write(log_data)
#PRINT CALENDAR
for d in range(1,367):
jd = jd_start-1+d
[y,m,dt,t] = swisseph.revjul(jd)
weekday = (weekday_start -1 + d)%7
##################
#Festival details#
##################
###--- MONTHLY VRATAMS ---###
#EKADASHI Vratam
if tithi_sunrise[d]==11 or tithi_sunrise[d]==12: #One of two consecutive tithis must appear @ sunrise!
#check for shukla ekadashi
if (tithi_sunrise[d]==11 and tithi_sunrise[d+1]==11):
festivals[d+1]=sarva[script]+'~'+get_ekadashi_name(paksha='shukla',month=moon_month[d],script=script)#moon_month[d] or [d+1]?
if moon_month[d+1]==4:
festivals[d+1]+='\\\\'+chaturmasya_start[script]
if moon_month[d+1]==8:
festivals[d+1]+='\\\\'+chaturmasya_end[script]
elif (tithi_sunrise[d]==11 and tithi_sunrise[d+1]!=11):
#Check dashami end time to decide for whether this is sarva/smartha
tithi_arunodayam = get_tithi(jd_sunrise[d]-(1/15.0)*(jd_sunrise[d]-jd_sunrise[d-1])) #Two muhurtams is 1/15 of day-length
if tithi_arunodayam==10:
festivals[d]=smartha[script]+'~'+get_ekadashi_name(paksha='shukla',month=moon_month[d],script=script)
festivals[d+1]=vaishnava[script]+'~'+get_ekadashi_name(paksha='shukla',month=moon_month[d],script=script)
if moon_month[d]==4:
festivals[d]+='\\\\'+chaturmasya_start[script]
if moon_month[d]==8:
festivals[d]+='\\\\'+chaturmasya_end[script]
else:
festivals[d]=sarva[script]+'~'+get_ekadashi_name(paksha='shukla',month=moon_month[d],script=script)
if moon_month[d]==4:
festivals[d]+='\\\\'+chaturmasya_start[script]
if moon_month[d]==8:
festivals[d]+='\\\\'+chaturmasya_end[script]
elif (tithi_sunrise[d-1]!=11 and tithi_sunrise[d]==12):
festivals[d]=sarva[script]+'~'+get_ekadashi_name(paksha='shukla',month=moon_month[d],script=script)
if moon_month[d]==4:
festivals[d]+='\\\\'+chaturmasya_start[script]
if moon_month[d]==8:
festivals[d]+='\\\\'+chaturmasya_end[script]
if tithi_sunrise[d]==26 or tithi_sunrise[d]==27: #One of two consecutive tithis must appear @ sunrise!
#check for krishna ekadashi
if (tithi_sunrise[d]==26 and tithi_sunrise[d+1]==26):
festivals[d+1]=sarva[script]+'~'+get_ekadashi_name(paksha='krishna',month=moon_month[d],script=script)#moon_month[d] or [d+1]?
elif (tithi_sunrise[d]==26 and tithi_sunrise[d+1]!=26):
#Check dashami end time to decide for whether this is sarva/smartha
tithi_arunodayam = get_tithi(jd_sunrise[d]-(1/15.0)*(jd_sunrise[d]-jd_sunrise[d-1])) #Two muhurtams is 1/15 of day-length
if tithi_arunodayam==25:
festivals[d]=smartha[script]+'~'+get_ekadashi_name(paksha='krishna',month=moon_month[d],script=script)
festivals[d+1]=vaishnava[script]+'~'+get_ekadashi_name(paksha='krishna',month=moon_month[d],script=script)
else:
festivals[d]=sarva[script]+'~'+get_ekadashi_name(paksha='krishna',month=moon_month[d],script=script)
elif (tithi_sunrise[d-1]!=26 and tithi_sunrise[d]==27):
festivals[d]=sarva[script]+'~'+get_ekadashi_name(paksha='krishna',month=moon_month[d],script=script)
#PRADOSHA Vratam
if tithi_sunrise[d]==12 or tithi_sunrise[d]==13:
ldiff_set=(swisseph.calc_ut(jd_sunset[d],swisseph.MOON)[0]-swisseph.calc_ut(jd_sunset[d],swisseph.SUN)[0])%360
ldiff_set_tmrw=(swisseph.calc_ut(jd_sunset[d+1],swisseph.MOON)[0]-swisseph.calc_ut(jd_sunset[d+1],swisseph.SUN)[0])%360
tithi_sunset = int(1+math.floor(ldiff_set/12.0))
tithi_sunset_tmrw = int(1+math.floor(ldiff_set_tmrw/12.0))
if tithi_sunset<=13 and tithi_sunset_tmrw!=13:
festivals[d]=pradosham[script]
elif tithi_sunset_tmrw==13:
festivals[d+1]=pradosham[script]
if tithi_sunrise[d]==27 or tithi_sunrise[d]==28:
ldiff_set=(swisseph.calc_ut(jd_sunset[d],swisseph.MOON)[0]-swisseph.calc_ut(jd_sunset[d],swisseph.SUN)[0])%360
ldiff_set_tmrw=(swisseph.calc_ut(jd_sunset[d+1],swisseph.MOON)[0]-swisseph.calc_ut(jd_sunset[d+1],swisseph.SUN)[0])%360
tithi_sunset = int(1+math.floor(ldiff_set/12.0))
tithi_sunset_tmrw = int(1+math.floor(ldiff_set_tmrw/12.0))
if tithi_sunset<=28 and tithi_sunset_tmrw!=28:
festivals[d]=pradosham[script]
elif tithi_sunset_tmrw==28:
festivals[d+1]=pradosham[script]
#SANKATAHARA chaturthi
if tithi_sunrise[d]==18 or tithi_sunrise[d]==19:
ldiff_moonrise_yest=(swisseph.calc_ut(jd_moonrise[d-1],swisseph.MOON)[0]-swisseph.calc_ut(jd_moonrise[d-1],swisseph.SUN)[0])%360
ldiff_moonrise=(swisseph.calc_ut(jd_moonrise[d],swisseph.MOON)[0]-swisseph.calc_ut(jd_moonrise[d],swisseph.SUN)[0])%360
ldiff_moonrise_tmrw=(swisseph.calc_ut(jd_moonrise[d+1],swisseph.MOON)[0]-swisseph.calc_ut(jd_moonrise[d+1],swisseph.SUN)[0])%360
tithi_moonrise_yest = int(1+math.floor(ldiff_moonrise_yest/12.0))
tithi_moonrise = int(1+math.floor(ldiff_moonrise/12.0))
tithi_moonrise_tmrw = int(1+math.floor(ldiff_moonrise_tmrw/12.0))
if tithi_moonrise==19:
if tithi_moonrise_yest!=19:#otherwise yesterday would have already been assigned
festivals[d]=chaturthi[script]
if moon_month[d]==5:#shravana krishna chaturthi
festivals[d]=maha[script]+festivals[d]
elif tithi_moonrise_tmrw==19:
festivals[d+1]=chaturthi[script]
if moon_month[d]==5: #moon_month[d] and[d+1] are same, so checking [d] is enough
festivals[d+1]=maha[script]+festivals[d+1]
#SHASHTHI Vratam
if tithi_sunrise[d]==5 or tithi_sunrise[d]==6:
if tithi_sunrise[d]==6 or (tithi_sunrise[d]==5 and tithi_sunrise[d+1]==7):
if tithi_sunrise[d-1]!=6:#otherwise yesterday would have already been assigned
festivals[d]=shashthi[script]
if moon_month[d]==8:#kArtika krishna shashthi
festivals[d]=skanda[script]+festivals[d]
elif tithi_sunrise[d+1]==6:
festivals[d+1]=shashthi[script]
if moon_month[d]==8: #moon_month[d] and[d+1] are same, so checking [d] is enough
festivals[d+1]=skanda[script]+festivals[d+1]
###--- OTHER (MAJOR) FESTIVALS ---###
#type of month | month number | type of angam (tithi|nakshatram) | angam number | min_t cut off for considering prev day (without sunrise_angam) as festival date
purvaviddha_rules={akshaya_tritiya[script]:['moon_month',2,'tithi',3,0],
chitra_purnima[script]:['sun_month',1,'tithi',15,0],
durgashtami[script]:['moon_month',7,'tithi',8,0],
mahanavami[script]:['moon_month',7,'tithi',9,0],
vijayadashami[script]:['moon_month',7,'tithi',10,0],
dipavali[script]:['moon_month',7,'tithi',29,0],
shankara_jayanti[script]:['moon_month',2,'tithi',5,0],
yajur_upakarma[script]:['moon_month',5,'tithi',15,0],
rg_upakarma[script]:['moon_month',5,'nakshatram',22,0],
sama_upakarma[script]:['sun_month',5,'nakshatram',13,0],
rishi_panchami[script]:['moon_month',6,'tithi',5,0],
ananta_chaturdashi[script]:['moon_month',6,'tithi',14,0],
mahalaya_paksham[script]:['moon_month',6,'tithi',16,0],
hanumat_jayanti[script]:['sun_month',9,'tithi',30,0],
ardra_darshanam[script]:['sun_month',9,'nakshatram',6,0],
ratha_saptami[script]:['sun_month',10,'tithi',7,0],
goda_jayanti[script]:['sun_month',4,'nakshatram',11,0],
adi_krittika[script]:['sun_month',4,'nakshatram',3,0],
phalguni_uttaram[script]:['sun_month',12,'nakshatram',12,4],
mahalaya_amavasya[script]:['moon_month',6,'tithi',30,0],
uma_maheshvara_vratam[script]:['moon_month',6,'tithi',15,0]}
for x in iter(purvaviddha_rules.keys()):
rule=purvaviddha_rules[x]
if rule[0]=='moon_month':
if moon_month[d]==rule[1]:
if rule[2]=='tithi':
fday = get_festival_day_purvaviddha(rule[3],tithi_sunrise,d,jd_sunrise[d],jd_sunrise[d+1],get_tithi,rule[4])
elif rule[2]=='nakshatram':
fday = get_festival_day_purvaviddha(rule[3],nakshatram_sunrise,d,jd_sunrise[d],jd_sunrise[d+1],get_nakshatram,rule[4])
if fday is not None:
if festival_day_list.has_key(x):
if festival_day_list[x][0]!=fday:
#Second occurrence of a festival within a Gregorian calendar year
festival_day_list[x]=[festival_day_list[x][0],fday]
else:
festival_day_list[x]=[fday]
elif rule[0]=='sun_month':
if sun_month[d]==rule[1]:
if rule[2]=='tithi':
fday = get_festival_day_purvaviddha(rule[3],tithi_sunrise,d,jd_sunrise[d],jd_sunrise[d+1],get_tithi,rule[4])
elif rule[2]=='nakshatram':
fday = get_festival_day_purvaviddha(rule[3],nakshatram_sunrise,d,jd_sunrise[d],jd_sunrise[d+1],get_nakshatram,rule[4])
if fday is not None:
if festival_day_list.has_key(x):
if festival_day_list[x][0]!=fday:
#Second occurrence of a festival within a Gregorian calendar year
festival_day_list[x]=[festival_day_list[x][0],fday]
else:
festival_day_list[x]=[fday]
else:
print 'Error; unknown string in rule: %s' % (rule[0])
return
#NAVARATRI START
if moon_month[d]==7 and moon_month[d-1]==6:
festival_day_list[navaratri_start[script]]=[d]
#PONGAL/AYANAM
if sun_month[d]==10 and sun_month[d-1]==9:
festival_day_list[uttarayanam[script]]=[d]
if sun_month[d]==4 and sun_month[d-1]==3:
festival_day_list[dakshinayanam[script]]=[d]
if sun_month[d]==1 and sun_month[d-1]==12:
festival_day_list[new_yr]=[d]
if moon_month[d]==1 and moon_month[d-1]!=1:
festival_day_list[yugadi[script]]=[d]
#SHRIRAMANAVAMI
if moon_month[d]==1:
if tithi_sunrise[d]==8 or tithi_sunrise[d]==9:
t_11 = get_tithi(jd_sunrise[d]+(jd_sunset[d]-jd_sunrise[d])*(2.0/5.0))#madhyahna1 start
t_12 = get_tithi(jd_sunrise[d]+(jd_sunset[d]-jd_sunrise[d])*(3.0/5.0))#madhyahna1 end
t_21 = get_tithi(jd_sunrise[d+1]+(jd_sunset[d+1]-jd_sunrise[d+1])*(2.0/5.0))#madhyahna2 start
t_22 = get_tithi(jd_sunrise[d+1]+(jd_sunset[d+1]-jd_sunrise[d+1])*(3.0/5.0))#madhyahna2 end
if t_11==9 or t_12==9:
if t_21==9 or t_22==9:
festival_day_list[ramanavami[script]]=[d+1]
else:
festival_day_list[ramanavami[script]]=[d]
#JANMASHTAMI
if moon_month[d]==5:
if tithi_sunrise[d]==22 or tithi_sunrise[d]==23:
t_11 = get_tithi(jd_sunset[d]+(jd_sunrise[d+1]-jd_sunset[d])*(7.0/15.0))#nishita1 start
t_12 = get_tithi(jd_sunset[d]+(jd_sunrise[d+1]-jd_sunset[d])*(8.0/15.0))#nishita1 end
#t_11 = get_tithi(jd_sunset[d]+(jd_sunrise[d+1]-jd_sunset[d])*(2.0/5.0))#madhyaratri1 start
#t_12 = get_tithi(jd_sunset[d]+(jd_sunrise[d+1]-jd_sunset[d])*(3.0/5.0))#madhyaratri1 end
t_21 = get_tithi(jd_sunset[d+1]+(jd_sunrise[d+2]-jd_sunset[d+1])*(7.0/15.0))#nishita2 start
t_22 = get_tithi(jd_sunset[d+1]+(jd_sunrise[d+2]-jd_sunset[d+1])*(8.0/15.0))#nishita2 end
#t_21 = get_tithi(jd_sunset[d+1]+(jd_sunrise[d+2]-jd_sunset[d+1])*(2.0/5.0))#madhyaratri2 start
#t_22 = get_tithi(jd_sunset[d+1]+(jd_sunrise[d+2]-jd_sunset[d+1])*(3.0/5.0))#madhyaratri2 end
if t_11==23 or t_12==23:
if t_21==23 or t_22==23:
festival_day_list[janmashtami[script]]=[d+1]
else:
festival_day_list[janmashtami[script]]=[d]
#SHIVARATRI
if moon_month[d]==11:
if tithi_sunrise[d]==28 or tithi_sunrise[d]==29:
t_11 = get_tithi(jd_sunset[d]+(jd_sunrise[d+1]-jd_sunset[d])*(7.0/15.0))#nishita1 start
t_12 = get_tithi(jd_sunset[d]+(jd_sunrise[d+1]-jd_sunset[d])*(8.0/15.0))#nishita1 end
t_21 = get_tithi(jd_sunset[d+1]+(jd_sunrise[d+2]-jd_sunset[d+1])*(7.0/15.0))#nishita2 start
t_22 = get_tithi(jd_sunset[d+1]+(jd_sunrise[d+2]-jd_sunset[d+1])*(8.0/15.0))#nishita2 end
if t_11==29 or t_12==29:
if t_21==29 or t_22==29:
festival_day_list[shivaratri[script]]=[d+1]
else:
festival_day_list[shivaratri[script]]=[d]
#VINAYAKA CHATURTHI
if moon_month[d]==6:
if tithi_sunrise[d]==3 or tithi_sunrise[d]==4:
t_11 = get_tithi(jd_sunrise[d]+(jd_sunset[d]-jd_sunrise[d])*(2.0/5.0))#madhyahna1 start
t_12 = get_tithi(jd_sunrise[d]+(jd_sunset[d]-jd_sunrise[d])*(3.0/5.0))#madhyahna1 end
t_21 = get_tithi(jd_sunrise[d+1]+(jd_sunset[d+1]-jd_sunrise[d+1])*(2.0/5.0))#madhyahna2 start
t_22 = get_tithi(jd_sunrise[d+1]+(jd_sunset[d+1]-jd_sunrise[d+1])*(3.0/5.0))#madhyahna2 end
if t_11==4 or t_12==4:
if t_21==4 or t_22==4:
festival_day_list[vchaturthi[script]]=[d+1]
else:
festival_day_list[vchaturthi[script]]=[d]
#Add saved festivals
festival_day_list[gayatri_japam[script]]=[festival_day_list[yajur_upakarma[script]][0]+1]
festival_day_list[varalakshmi_vratam[script]]=[festival_day_list[yajur_upakarma[script]][0]-((weekday_start-1+festival_day_list[yajur_upakarma[script]][0]-5)%7)]
for x in iter(festival_day_list.keys()):
for j in range(0,len(festival_day_list[x])):
if festivals[festival_day_list[x][j]]!='':
festivals[festival_day_list[x][j]]+='\\\\'
festivals[festival_day_list[x][j]]+=x
###--- ECLIPSES ---###
###--- LUNAR ECLIPSES ---###
swisseph.set_topo(lon=longitude,lat=latitude,alt=0.0) #Set location
jd = jd_start
while 1:
next_ecl_lun=swisseph.lun_eclipse_when(jd)
jd=next_ecl_lun[1][0]+(tz_off/24.0)
jd_ecl_lun_start=next_ecl_lun[1][2]+(tz_off/24.0)
jd_ecl_lun_end=next_ecl_lun[1][3]+(tz_off/24.0)
ecl_y=swisseph.revjul(jd-1)[0]# -1 is to not miss an eclipse that occurs after sunset on 31-Dec!
if ecl_y!=start_year:
break
else:
ecl_lun_start = swisseph.revjul(jd_ecl_lun_start)[3]
ecl_lun_end = swisseph.revjul(jd_ecl_lun_end)[3]
if (jd_ecl_lun_start-(tz_off/24.0))==0.0 or (jd_ecl_lun_end-(tz_off/24.0))==0.0:
jd=jd+20 #Move towards the next eclipse... at least the next full moon (>=25 days away)
continue
fday=int(math.floor(jd_ecl_lun_start)-math.floor(jd_start)+1)
#print '%%',jd,fday,jd_sunrise[fday],jd_sunrise[fday-1]
if (jd<(jd_sunrise[fday]+tz_off/24.0)):
fday-=1
if ecl_lun_start<swisseph.revjul(jd_sunrise[fday+1]+tz_off/24.0)[3]:
ecl_lun_start+=24
#print '%%',jd,fday,jd_sunrise[fday],jd_sunrise[fday-1],ecl_lun_start, ecl_lun_end
jd_moonrise_ecl_day=swisseph.rise_trans(jd_start=jd_sunrise[fday],body=swisseph.MOON,
lon=longitude,lat=latitude,rsmi=swisseph.CALC_RISE|swisseph.BIT_DISC_CENTER)[1][0]+(tz_off/24.0)
jd_moonset_ecl_day=swisseph.rise_trans(jd_start=jd_moonrise_ecl_day,body=swisseph.MOON,
lon=longitude,lat=latitude,rsmi=swisseph.CALC_SET|swisseph.BIT_DISC_CENTER)[1][0]+(tz_off/24.0)
#if jd_ecl_lun_start<(jd_sunrise[fday]+(tz_off/24.0)):
if ecl_lun_end < ecl_lun_start:
ecl_lun_end+=24
#print '%%', (jd_ecl_lun_start), (jd_ecl_lun_end), (jd_moonrise_ecl_day), (jd_moonset_ecl_day)
#print '%%', swisseph.revjul(jd_ecl_lun_start), swisseph.revjul(jd_ecl_lun_end), swisseph.revjul(jd_moonrise_ecl_day), swisseph.revjul(jd_moonset_ecl_day)
if jd_ecl_lun_end<jd_moonrise_ecl_day or jd_ecl_lun_start>jd_moonset_ecl_day:
jd=jd+20 #Move towards the next eclipse... at least the next full moon (>=25 days away)
continue
lun_ecl_str = chandra_grahanam[script]+'~\\textsf{'+print_time2(ecl_lun_start)+'}{\\RIGHTarrow}\\textsf{'+print_time2(ecl_lun_end)+'}'
if festivals[fday]!='':
festivals[fday]+='\\\\'
festivals[fday]+=lun_ecl_str
jd=jd+20
###--- SOLAR ECLIPSES ---###
swisseph.set_topo(lon=longitude,lat=latitude,alt=0.0) #Set location
jd = jd_start
while 1:
next_ecl_sol=swisseph.sol_eclipse_when_loc(julday=jd,lon=longitude,lat=latitude)
jd=next_ecl_sol[1][0]+(tz_off/24.0)
jd_ecl_sol_start=next_ecl_sol[1][1]+(tz_off/24.0)
jd_ecl_sol_end=next_ecl_sol[1][4]+(tz_off/24.0)
ecl_y=swisseph.revjul(jd-1)[0]# -1 is to not miss an eclipse that occurs after sunset on 31-Dec!
if ecl_y!=start_year:
break
else:
#print '%%', fday, (jd_ecl_sol_start), (jd_ecl_sol_end), (jd_sunrise[fday])
#print '%%', swisseph.revjul(jd_ecl_sol_start), swisseph.revjul(jd_ecl_sol_end), swisseph.revjul(jd_sunrise[fday])
fday=int(math.floor(jd)-math.floor(jd_start)+1)
if (jd<(jd_sunrise[fday]+tz_off/24.0)):
fday-=1
#print '%%', fday, (jd_ecl_sol_start), (jd_ecl_sol_end), (jd_sunrise[fday])
#print '%%', swisseph.revjul(jd_ecl_sol_start), swisseph.revjul(jd_ecl_sol_end), swisseph.revjul(jd_sunrise[fday])
ecl_sol_start = swisseph.revjul(jd_ecl_sol_start)[3]
ecl_sol_end = swisseph.revjul(jd_ecl_sol_end)[3]
if (jd_ecl_sol_start-(tz_off/24.0))==0.0 or (jd_ecl_sol_end-(tz_off/24.0))==0.0:# or jd_ecl_end<jd_sunrise[fday] or jd_ecl_start>jd_sunset[fday]:
jd=jd+20 #Move towards the next eclipse... at least the next new moon (>=25 days away)
continue
if ecl_sol_end < ecl_sol_start:
ecl_sol_end+=24
sol_ecl_str = surya_grahanam[script]+'~\\textsf{'+print_time2(ecl_sol_start)+'}{\\RIGHTarrow}\\textsf{'+print_time2(ecl_sol_end)+'}'
if festivals[fday]!='':
festivals[fday]+='\\\\'
festivals[fday]+=sol_ecl_str
jd=jd+20
###--- FESTIVAL ADDITIONS COMPLETE ---###
###--- PRINT LIST OF FESTIVALS (Page 2) ---###
if script=='en':
cal = Calendar()
print '\\newpage'
print '\\centerline {\\LARGE {{%s}}}\\mbox{}\\\\[2cm]' % list_of_festivals[script]
print '\\begin{center}'
print '\\begin{minipage}[t]{0.3\\linewidth}'
print '\\begin{center}'
print '\\begin{tabular}{>{\\sffamily}r>{\\sffamily}r>{\\sffamily}cp{6cm}}'
mlast=1
for d in range(1,367):
jd = jd_start-1+d
[y,m,dt,t] = swisseph.revjul(jd)
weekday = (weekday_start -1 + d)%7
if festivals[d]!='':
if m!=mlast:
mlast=m
#print '\\hline\\\\'
print '\\\\'
if m==5 or m==9:
print '\\end{tabular}'
print '\\end{center}'
print '\\end{minipage}\hspace{1cm}%'
print '\\begin{minipage}[t]{0.3\\linewidth}'
print '\\begin{center}'
print '\\begin{tabular}{>{\\sffamily}r>{\\sffamily}l>{\\sffamily}cp{6cm}}'
print '%s & %s & %s & {\\raggedright %s} \\\\' % (MON[m],dt,WDAY[weekday],festivals[d])
if script=='en':
event = Event()
event.add('summary',festivals[d])
event.add('dtstart',datetime(y,m,dt))
event.add('dtend',datetime(y,m,dt))
cal.add_component(event)
if m==12 and dt==31:
break
print '\\end{tabular}'
print '\\end{center}'
print '\\end{minipage}'
print '\\end{center}'
print '\\clearpage'
if script=='en':
cal_fname = '%s-%4d.ics' %(city_name,start_year)
cal_file = open(cal_fname,'w')
cal_file.write(cal.as_string())
cal_file.close()
#Layout calendar in LATeX format
#We use a separate loop here, because of festivals like varalakshmi
#vratam, for which we backtrack to the previous friday from yajur
#upakarma and change the list of festivals!
for d in range(1,367):
jd = jd_start-1+d
[y,m,dt,t] = swisseph.revjul(jd)
weekday = (weekday_start -1 + d)%7
if dt==1:
if m>1:
if weekday!=0: #Space till Sunday
for i in range(weekday,6):
print "{} &"
print "\\\\ \hline"
print '\end{tabular}'
print '\n\n'
#Begin tabular
print '\\begin{tabular}{|c|c|c|c|c|c|c|}'
print '\multicolumn{7}{c}{\Large \\bfseries \sffamily %s %s}\\\\[3mm]' % (month[m],y)
print '\hline'
print '\\textbf{\\textsf{SUN}} & \\textbf{\\textsf{MON}} & \\textbf{\\textsf{TUE}} & \\textbf{\\textsf{WED}} & \\textbf{\\textsf{THU}} & \\textbf{\\textsf{FRI}} & \\textbf{\\textsf{SAT}} \\\\ \hline'
#print '\\textbf{भानु} & \\textbf{इन्दु} & \\textbf{भौम} & \\textbf{बुध} & \\textbf{गुरु} & \\textbf{भृगु} & \\textbf{स्थिर} \\\\ \hline'
#Blanks for previous weekdays
for i in range(0,weekday):
print "{} &"
print '\caldata{\\textcolor{%s}{%s}}{%s{%s}}{\\sundata{%s}{%s}{%s}}{\\tnyk{%s}{%s}{%s}{%s}}{\\rahuyama{%s}{%s}}{%s} ' % (daycol[weekday],
dt,month_data[d],get_chandra_masa(moon_month[d],chandra_masa_names,script),sunrise[d],sunset[d],madhya[d],tithi_data_string[d],nakshatram_data_string[d],
yogam_data_string[d],karanam_data_string[d],rahu[d],yama[d],festivals[d])
if weekday==6:
print "\\\\ \hline"
else:
print "&"
if m==12 and dt==31:
break
# For debugging specific dates
#if m==4 and dt==10:
# break
for i in range(weekday+1,6):
print "{} &"
if weekday!=6:
print "\\\\ \hline"
print '\end{tabular}'
print '\n\n'
print template_lines[-2][:-1]
print template_lines[-1][:-1]
def main():
city_name = sys.argv[1]
latitude = sexastr2deci(sys.argv[2])
longitude = sexastr2deci(sys.argv[3])
tz = sys.argv[4]
start_year = int(sys.argv[5])
year = start_year
jd = swisseph.julday(year, 1, 1, 0)
jd_start = jd
if len(sys.argv) == 7:
script = sys.argv[6]
else:
script = 'deva' #Default script is devanagari
swisseph.set_sid_mode(swisseph.SIDM_LAHIRI) #Force Lahiri Ayanamsha
sun_month_day = jd - get_last_dhanur_transit(jd, latitude, longitude)
month_start_after_set = 0
template_file = open('cal_template_compre.tex')
template_lines = template_file.readlines()
for i in range(0, len(template_lines) - 3):
print template_lines[i][:-1]
samvatsara_id = (year - 1568) % 60 + 1
#distance from prabhava
samvatsara_names = '%s–%s' % (year_names[script][samvatsara_id],
year_names[script][(samvatsara_id % 60) + 1])
new_yr = mesha_sankranti[script] + '~(' + year_names[script][
(samvatsara_id % 60) + 1] + '-' + samvatsara[script] + ')'
print '\\mbox{}'
print '{\\font\\x="Candara" at 60 pt\\x %d\\\\[0.5cm]}' % year
print '\\mbox{\\font\\x="Sanskrit 2003:script=deva" at 48 pt\\x %s}\\\\[0.5cm]' % samvatsara_names
print '{\\font\\x="Candara" at 48 pt\\x \\uppercase{%s}\\\\[0.5cm]}' % city_name
print '\hrule'
#INITIALISE VARIABLES
jd_sunrise = [None] * 368
jd_sunset = [None] * 368
jd_moonrise = [None] * 368
longitude_moon = [None] * 368
longitude_sun = [None] * 368
longitude_sun_set = [None] * 368
sun_month_id = [None] * 368
sun_month = [None] * 368
sun_month_rise = [None] * 368
moon_month = [None] * 368
month_data = [None] * 368
tithi_data_string = [None] * 368
tithi_sunrise = [None] * 368
nakshatram_data_string = [None] * 368
nakshatram_sunrise = [None] * 368
karanam_data_string = [None] * 368
karanam_sunrise = [None] * 368
yogam_data_string = [None] * 368
yogam_sunrise = [None] * 368
weekday = [None] * 368
sunrise = [None] * 368
sunset = [None] * 368
madhya = [None] * 368
rahu = [None] * 368
yama = [None] * 368
festival_day_list = {}
festivals = [''] * 368
weekday_start = swisseph.day_of_week(jd) + 1
#swisseph has Mon = 0, non-intuitively!
##################################################
#Compute all parameters -- latitude/longitude etc#
##################################################
for d in range(-1, 367):
jd = jd_start - 1 + d
[y, m, dt, t] = swisseph.revjul(jd)
weekday = (weekday_start - 1 + d) % 7
local_time = pytz.timezone(tz).localize(datetime(y, m, dt, 6, 0, 0))
#checking @ 6am local - can we do any better?
tz_off = datetime.utcoffset(local_time).seconds / 3600.0
#compute offset from UTC
jd_sunrise[d + 1] = swisseph.rise_trans(
jd_start=jd + 1,
body=swisseph.SUN,
lon=longitude,
lat=latitude,
rsmi=swisseph.CALC_RISE | swisseph.BIT_DISC_CENTER)[1][0]
jd_sunset[d + 1] = swisseph.rise_trans(
jd_start=jd + 1,
body=swisseph.SUN,
lon=longitude,
lat=latitude,
rsmi=swisseph.CALC_SET | swisseph.BIT_DISC_CENTER)[1][0]
jd_moonrise[d + 1] = swisseph.rise_trans(
jd_start=jd + 1,
body=swisseph.MOON,
lon=longitude,
lat=latitude,
rsmi=swisseph.CALC_RISE | swisseph.BIT_DISC_CENTER)[1][0]
longitude_sun[d + 1] = swisseph.calc_ut(
jd_sunrise[d + 1], swisseph.SUN)[0] - swisseph.get_ayanamsa(
jd_sunrise[d + 1])
longitude_moon[d + 1] = swisseph.calc_ut(
jd_sunrise[d + 1], swisseph.MOON)[0] - swisseph.get_ayanamsa(
jd_sunrise[d + 1])
longitude_sun_set[d + 1] = swisseph.calc_ut(
jd_sunset[d + 1], swisseph.SUN)[0] - swisseph.get_ayanamsa(
jd_sunset[d + 1])
sun_month_id[d + 1] = int(1 + math.floor((
(longitude_sun_set[d + 1]) % 360) / 30.0))
sun_month[d + 1] = int(1 + math.floor((
(longitude_sun_set[d + 1]) % 360) / 30.0))
sun_month_rise[d + 1] = int(1 + math.floor((
(longitude_sun[d + 1]) % 360) / 30.0))
if (d <= 0):
continue
t_sunrise = (jd_sunrise[d] - jd) * 24.0 + tz_off
t_sunset = (jd_sunset[d] - jd) * 24.0 + tz_off
#Solar month calculations
if month_start_after_set == 1:
sun_month_day = 0
month_start_after_set = 0
if sun_month[d] != sun_month[d + 1]:
sun_month_day = sun_month_day + 1
if sun_month[d] != sun_month_rise[d + 1]:
month_start_after_set = 1
[_m, sun_month_end_time] = get_angam_data_string(
masa_names[script], 30, jd_sunrise[d], jd_sunrise[d + 1],
t_sunrise, longitude_moon[d], longitude_sun[d],
longitude_moon[d + 1], longitude_sun[d + 1], [0, 1],
script)
elif sun_month_rise[d] != sun_month[d]:
#mAsa pirappu!
#sun moves into next rAsi before sunset -- check rules!
sun_month_day = 1
[_m, sun_month_end_time] = get_angam_data_string(
masa_names[script], 30, jd_sunrise[d], jd_sunrise[d + 1],
t_sunrise, longitude_moon[d], longitude_sun[d],
longitude_moon[d + 1], longitude_sun[d + 1], [0, 1], script)
else:
sun_month_day = sun_month_day + 1
sun_month_end_time = ''
month_data[d] = '\\sunmonth{%s}{%d}{%s}' % (masa_names[script][
sun_month[d]], sun_month_day, sun_month_end_time)
#KARADAYAN NOMBU -- easy to check here
if sun_month_end_time != '': #month ends today
if (sun_month[d] == 12
and sun_month_day == 1) or (sun_month[d] == 11
and sun_month_day != 1):
festival_day_list[karadayan_nombu[script]] = [d]
#Sunrise/sunset and related stuff (like rahu, yama)
[rhs, rms, rss] = deci2sexa(
t_sunrise) #rise hour sun, rise minute sun, rise sec sun
[shs, sms, sss] = deci2sexa(t_sunset)
length_of_day = t_sunset - t_sunrise
yamagandam_start = t_sunrise + (1 / 8.0) * (
yamagandam_octets[weekday] - 1) * length_of_day
yamagandam_end = yamagandam_start + (1 / 8.0) * length_of_day
rahukalam_start = t_sunrise + (1 / 8.0) * (rahukalam_octets[weekday] -
1) * length_of_day
rahukalam_end = rahukalam_start + (1 / 8.0) * length_of_day
madhyahnikam_start = t_sunrise + (1 / 5.0) * length_of_day
sunrise[d] = '%02d:%02d' % (rhs, rms)
sunset[d] = '%02d:%02d' % (shs, sms)
madhya[d] = print_time(madhyahnikam_start)
rahu[d] = '%s--%s' % (print_time(rahukalam_start),
print_time(rahukalam_end))
yama[d] = '%s--%s' % (print_time(yamagandam_start),
print_time(yamagandam_end))
[tithi_sunrise[d], tithi_data_string[d]] = get_angam_data_string(
tithi_names[script], 12, jd_sunrise[d], jd_sunrise[d + 1],
t_sunrise, longitude_moon[d], longitude_sun[d],
longitude_moon[d + 1], longitude_sun[d + 1], [1, -1], script)
[nakshatram_sunrise[d],
nakshatram_data_string[d]] = get_angam_data_string(
nakshatra_names[script], (360.0 / 27.0), jd_sunrise[d],
jd_sunrise[d + 1], t_sunrise, longitude_moon[d], longitude_sun[d],
longitude_moon[d + 1], longitude_sun[d + 1], [1, 0], script)
[karanam_sunrise[d], karanam_data_string[d]] = get_angam_data_string(
karanam_names[script], 6, jd_sunrise[d], jd_sunrise[d + 1],
t_sunrise, longitude_moon[d], longitude_sun[d],
longitude_moon[d + 1], longitude_sun[d + 1], [1, -1], script)
[yogam_sunrise[d], yogam_data_string[d]] = get_angam_data_string(
yogam_names[script], (360.0 / 27.0), jd_sunrise[d],
jd_sunrise[d + 1], t_sunrise, longitude_moon[d], longitude_sun[d],
longitude_moon[d + 1], longitude_sun[d + 1], [1, 1], script)
#ASSIGN MOON MONTHS
last_month_change = 1
last_moon_month = None
for d in range(1, 367):
#Assign moon_month for each day
if (tithi_sunrise[d] == 1):
for i in range(last_month_change, d):
#print '%%#Setting moon_month to sun_month_id, for i=%d:%d to %d' %(last_month_change,d-1,sun_month_id[d])
if (sun_month_id[d] == last_moon_month):
moon_month[i] = sun_month_id[d] % 12 + 0.5
else:
moon_month[i] = sun_month_id[d]
last_month_change = d
last_moon_month = sun_month_id[d]
elif (tithi_sunrise[d] == 2 and tithi_sunrise[d - 1] == 30):
#prathama tithi was never seen @ sunrise
for i in range(last_month_change, d):
#print '%%@Setting moon_month to sun_month_id, for i=%d:%d to %d (last month = %d)' %(last_month_change,d-1,sun_month_id[d],last_moon_month)
if (sun_month_id[d - 1] == last_moon_month):
moon_month[i] = sun_month_id[d - 1] % 12 + 0.5
else:
moon_month[i] = sun_month_id[d - 1]
last_month_change = d
last_moon_month = sun_month_id[d - 1]
for i in range(last_month_change, 367):
moon_month[i] = sun_month_id[last_month_change - 1] + 1
#for d in range(1,367):
#jd = jd_start-1+d
#[y,m,dt,t] = swisseph.revjul(jd)
#print '%%#%02d-%02d-%4d: %3d:%s (sunrise tithi=%d) {%s}' % (dt,m,y,d,moon_month[d],tithi_sunrise[d],tithi_data_string[d])
log_file = open('cal_log_%4d.txt' % year, 'w')
for d in range(1, 367):
jd = jd_start - 1 + d
[y, m, dt, t] = swisseph.revjul(jd)
log_data = '%02d-%02d-%4d\t[%3d]\tsun_rashi=%8.3f\ttithi=%8.3f\tsun_month=%2d\tmoon_month=%4.1f\n' % (
dt, m, y, d, (longitude_sun_set[d] % 360) / 30.0,
get_angam_float(jd_sunrise[d], 12.0,
[1, -1]), sun_month[d], moon_month[d])
log_file.write(log_data)
#PRINT CALENDAR
for d in range(1, 367):
jd = jd_start - 1 + d
[y, m, dt, t] = swisseph.revjul(jd)
weekday = (weekday_start - 1 + d) % 7
##################
#Festival details#
##################
###--- MONTHLY VRATAMS ---###
#EKADASHI Vratam
if tithi_sunrise[d] == 11 or tithi_sunrise[
d] == 12: #One of two consecutive tithis must appear @ sunrise!
#check for shukla ekadashi[script]
if (tithi_sunrise[d] == 11 and tithi_sunrise[d + 1] == 11):
festivals[d + 1] = sarva[script] + '~' + get_ekadashi_name(
paksha='shukla', month=moon_month[d],
script=script) #moon_month[d] or [d+1]?
if moon_month[d + 1] == 4:
festivals[d + 1] += '\\\\' + chaturmasya_start[script]
if moon_month[d + 1] == 8:
festivals[d + 1] += '\\\\' + chaturmasya_end[script]
elif (tithi_sunrise[d] == 11 and tithi_sunrise[d + 1] != 11):
#Check dashami end time to decide for whether this is sarva[script]/smartha[script]
tithi_arunodayam = get_tithi(
jd_sunrise[d] - (1 / 15.0) *
(jd_sunrise[d] - jd_sunrise[d - 1])
) #Two muhurtams is 1/15 of day-length
if tithi_arunodayam == 10:
festivals[d] = smartha[script] + '~' + get_ekadashi_name(
paksha='shukla', month=moon_month[d], script=script)
festivals[d +
1] = vaishnava[script] + '~' + get_ekadashi_name(
paksha='shukla',
month=moon_month[d],
script=script)
if moon_month[d] == 4:
festivals[d] += '\\\\' + chaturmasya_start[script]
if moon_month[d] == 8:
festivals[d] += '\\\\' + chaturmasya_end[script]
else:
festivals[d] = sarva[script] + '~' + get_ekadashi_name(
paksha='shukla', month=moon_month[d], script=script)
if moon_month[d] == 4:
festivals[d] += '\\\\' + chaturmasya_start[script]
if moon_month[d] == 8:
festivals[d] += '\\\\' + chaturmasya_end[script]
elif (tithi_sunrise[d - 1] != 11 and tithi_sunrise[d] == 12):
festivals[d] = sarva[script] + '~' + get_ekadashi_name(
paksha='shukla', month=moon_month[d], script=script)
if moon_month[d] == 4:
festivals[d] += '\\\\' + chaturmasya_start[script]
if moon_month[d] == 8:
festivals[d] += '\\\\' + chaturmasya_end[script]
if tithi_sunrise[d] == 26 or tithi_sunrise[
d] == 27: #One of two consecutive tithis must appear @ sunrise!
#check for krishna ekadashi[script]
if (tithi_sunrise[d] == 26 and tithi_sunrise[d + 1] == 26):
festivals[d + 1] = sarva[script] + '~' + get_ekadashi_name(
paksha='krishna', month=moon_month[d],
script=script) #moon_month[d] or [d+1]?
elif (tithi_sunrise[d] == 26 and tithi_sunrise[d + 1] != 26):
#Check dashami end time to decide for whether this is sarva[script]/smartha[script]
tithi_arunodayam = get_tithi(
jd_sunrise[d] - (1 / 15.0) *
(jd_sunrise[d] - jd_sunrise[d - 1])
) #Two muhurtams is 1/15 of day-length
if tithi_arunodayam == 25:
festivals[d] = smartha[script] + '~' + get_ekadashi_name(
paksha='krishna', month=moon_month[d], script=script)
festivals[d +
1] = vaishnava[script] + '~' + get_ekadashi_name(
paksha='krishna',
month=moon_month[d],
script=script)
else:
festivals[d] = sarva[script] + '~' + get_ekadashi_name(
paksha='krishna', month=moon_month[d], script=script)
elif (tithi_sunrise[d - 1] != 26 and tithi_sunrise[d] == 27):
festivals[d] = sarva[script] + '~' + get_ekadashi_name(
paksha='krishna', month=moon_month[d], script=script)
#PRADOSHA Vratam
if tithi_sunrise[d] == 12 or tithi_sunrise[d] == 13:
ldiff_set = (swisseph.calc_ut(jd_sunset[d], swisseph.MOON)[0] -
swisseph.calc_ut(jd_sunset[d], swisseph.SUN)[0]) % 360
ldiff_set_tmrw = (
swisseph.calc_ut(jd_sunset[d + 1], swisseph.MOON)[0] -
swisseph.calc_ut(jd_sunset[d + 1], swisseph.SUN)[0]) % 360
tithi_sunset = int(1 + math.floor(ldiff_set / 12.0))
tithi_sunset_tmrw = int(1 + math.floor(ldiff_set_tmrw / 12.0))
if tithi_sunset <= 13 and tithi_sunset_tmrw != 13:
festivals[d] = pradosham[script]
elif tithi_sunset_tmrw == 13:
festivals[d + 1] = pradosham[script]
if tithi_sunrise[d] == 27 or tithi_sunrise[d] == 28:
ldiff_set = (swisseph.calc_ut(jd_sunset[d], swisseph.MOON)[0] -
swisseph.calc_ut(jd_sunset[d], swisseph.SUN)[0]) % 360
ldiff_set_tmrw = (
swisseph.calc_ut(jd_sunset[d + 1], swisseph.MOON)[0] -
swisseph.calc_ut(jd_sunset[d + 1], swisseph.SUN)[0]) % 360
tithi_sunset = int(1 + math.floor(ldiff_set / 12.0))
tithi_sunset_tmrw = int(1 + math.floor(ldiff_set_tmrw / 12.0))
if tithi_sunset <= 28 and tithi_sunset_tmrw != 28:
festivals[d] = pradosham[script]
elif tithi_sunset_tmrw == 28:
festivals[d + 1] = pradosham[script]
#SANKATAHARA chaturthi[script]
if tithi_sunrise[d] == 18 or tithi_sunrise[d] == 19:
ldiff_moonrise_yest = (
swisseph.calc_ut(jd_moonrise[d - 1], swisseph.MOON)[0] -
swisseph.calc_ut(jd_moonrise[d - 1], swisseph.SUN)[0]) % 360
ldiff_moonrise = (
swisseph.calc_ut(jd_moonrise[d], swisseph.MOON)[0] -
swisseph.calc_ut(jd_moonrise[d], swisseph.SUN)[0]) % 360
ldiff_moonrise_tmrw = (
swisseph.calc_ut(jd_moonrise[d + 1], swisseph.MOON)[0] -
swisseph.calc_ut(jd_moonrise[d + 1], swisseph.SUN)[0]) % 360
tithi_moonrise_yest = int(1 +
math.floor(ldiff_moonrise_yest / 12.0))
tithi_moonrise = int(1 + math.floor(ldiff_moonrise / 12.0))
tithi_moonrise_tmrw = int(1 +
math.floor(ldiff_moonrise_tmrw / 12.0))
if tithi_moonrise == 19:
if tithi_moonrise_yest != 19: #otherwise yesterday would have already been assigned
festivals[d] = chaturthi[script]
if moon_month[d] == 5: #shravana krishna chaturthi[script]
festivals[d] = maha[script] + festivals[d]
elif tithi_moonrise_tmrw == 19:
festivals[d + 1] = chaturthi[script]
if moon_month[
d] == 5: #moon_month[d] and[d+1] are same, so checking [d] is enough
festivals[d + 1] = maha[script] + festivals[d + 1]
#SHASHTHI Vratam
if tithi_sunrise[d] == 5 or tithi_sunrise[d] == 6:
if tithi_sunrise[d] == 6 or (tithi_sunrise[d] == 5
and tithi_sunrise[d + 1] == 7):
if tithi_sunrise[
d -
1] != 6: #otherwise yesterday would have already been assigned
festivals[d] = shashthi[script]
if moon_month[d] == 8: #kArtika krishna shashthi[script]
festivals[d] = skanda[script] + festivals[d]
elif tithi_sunrise[d + 1] == 6:
festivals[d + 1] = shashthi[script]
if moon_month[
d] == 8: #moon_month[d] and[d+1] are same, so checking [d] is enough
festivals[d + 1] = skanda[script] + festivals[d + 1]
###--- OTHER (MAJOR) FESTIVALS ---###
#type of month | month number | type of angam (tithi|nakshatram) | angam number | min_t cut off for considering prev day (without sunrise_angam) as festival date
purvaviddha_rules = {
akshaya_tritiya[script]: ['moon_month', 2, 'tithi', 3, 0],
chitra_purnima[script]: ['sun_month', 1, 'tithi', 15, 0],
durgashtami[script]: ['moon_month', 7, 'tithi', 8, 0],
mahanavami[script]: ['moon_month', 7, 'tithi', 9, 0],
vijayadashami[script]: ['moon_month', 7, 'tithi', 10, 0],
dipavali[script]: ['moon_month', 7, 'tithi', 29, 0],
shankara_jayanti[script]: ['moon_month', 2, 'tithi', 5, 0],
yajur_upakarma[script]: ['moon_month', 5, 'tithi', 15, 0],
rg_upakarma[script]: ['moon_month', 5, 'nakshatram', 22, 0],
sama_upakarma[script]: ['sun_month', 5, 'nakshatram', 13, 0],
rishi_panchami[script]: ['moon_month', 6, 'tithi', 5, 0],
ananta_chaturdashi[script]: ['moon_month', 6, 'tithi', 14, 0],
mahalaya_paksham[script]: ['moon_month', 6, 'tithi', 16, 0],
hanumat_jayanti[script]: ['sun_month', 9, 'tithi', 30, 0],
ardra_darshanam[script]: ['sun_month', 9, 'nakshatram', 6, 0],
ratha_saptami[script]: ['sun_month', 10, 'tithi', 7, 0],
goda_jayanti[script]: ['sun_month', 4, 'nakshatram', 11, 0],
adi_krittika[script]: ['sun_month', 4, 'nakshatram', 3, 0],
phalguni_uttaram[script]: ['sun_month', 12, 'nakshatram', 12, 4],
mahalaya_amavasya[script]: ['moon_month', 6, 'tithi', 30, 0],
uma_maheshvara_vratam[script]: ['moon_month', 6, 'tithi', 15, 0]
}
for x in iter(purvaviddha_rules.keys()):
rule = purvaviddha_rules[x]
if rule[0] == 'moon_month':
if moon_month[d] == rule[1]:
if rule[2] == 'tithi':
fday = get_festival_day_purvaviddha(
rule[3], tithi_sunrise, d, jd_sunrise[d],
jd_sunrise[d + 1], get_tithi, rule[4])
elif rule[2] == 'nakshatram':
fday = get_festival_day_purvaviddha(
rule[3], nakshatram_sunrise, d, jd_sunrise[d],
jd_sunrise[d + 1], get_nakshatram, rule[4])
if fday is not None:
if festival_day_list.has_key(x):
if festival_day_list[x][0] != fday:
#Second occurrence of a festival within a Gregorian calendar year
festival_day_list[x] = [
festival_day_list[x][0], fday
]
else:
festival_day_list[x] = [fday]
elif rule[0] == 'sun_month':
if sun_month[d] == rule[1]:
if rule[2] == 'tithi':
fday = get_festival_day_purvaviddha(
rule[3], tithi_sunrise, d, jd_sunrise[d],
jd_sunrise[d + 1], get_tithi, rule[4])
elif rule[2] == 'nakshatram':
fday = get_festival_day_purvaviddha(
rule[3], nakshatram_sunrise, d, jd_sunrise[d],
jd_sunrise[d + 1], get_nakshatram, rule[4])
if fday is not None:
if festival_day_list.has_key(x):
if festival_day_list[x][0] != fday:
#Second occurrence of a festival within a Gregorian calendar year
festival_day_list[x] = [
festival_day_list[x][0], fday
]
else:
festival_day_list[x] = [fday]
else:
print 'Error; unknown string in rule: %s' % (rule[0])
return
#NAVARATRI START
if moon_month[d] == 7 and moon_month[d - 1] == 6:
festival_day_list[navaratri_start[script]] = [d]
#PONGAL/AYANAM
if sun_month[d] == 10 and sun_month[d - 1] == 9:
festival_day_list[uttarayanam[script]] = [d]
if sun_month[d] == 4 and sun_month[d - 1] == 3:
festival_day_list[dakshinayanam[script]] = [d]
if sun_month[d] == 1 and sun_month[d - 1] == 12:
festival_day_list[new_yr] = [d]
if moon_month[d] == 1 and moon_month[d - 1] != 1:
festival_day_list[yugadi[script]] = [d]
#SHRIRAMANAVAMI
if moon_month[d] == 1:
if tithi_sunrise[d] == 8 or tithi_sunrise[d] == 9:
t_11 = get_tithi(jd_sunrise[d] +
(jd_sunset[d] - jd_sunrise[d]) *
(2.0 / 5.0)) #madhyahna1 start
t_12 = get_tithi(jd_sunrise[d] +
(jd_sunset[d] - jd_sunrise[d]) *
(3.0 / 5.0)) #madhyahna1 end
t_21 = get_tithi(jd_sunrise[d + 1] +
(jd_sunset[d + 1] - jd_sunrise[d + 1]) *
(2.0 / 5.0)) #madhyahna2 start
t_22 = get_tithi(jd_sunrise[d + 1] +
(jd_sunset[d + 1] - jd_sunrise[d + 1]) *
(3.0 / 5.0)) #madhyahna2 end
if t_11 == 9 or t_12 == 9:
if t_21 == 9 or t_22 == 9:
festival_day_list[ramanavami[script]] = [d + 1]
else:
festival_day_list[ramanavami[script]] = [d]
#JANMASHTAMI
if moon_month[d] == 5:
if tithi_sunrise[d] == 22 or tithi_sunrise[d] == 23:
t_11 = get_tithi(jd_sunset[d] +
(jd_sunrise[d + 1] - jd_sunset[d]) *
(7.0 / 15.0)) #nishita1 start
t_12 = get_tithi(jd_sunset[d] +
(jd_sunrise[d + 1] - jd_sunset[d]) *
(8.0 / 15.0)) #nishita1 end
#t_11 = get_tithi(jd_sunset[d]+(jd_sunrise[d+1]-jd_sunset[d])*(2.0/5.0))#madhyaratri1 start
#t_12 = get_tithi(jd_sunset[d]+(jd_sunrise[d+1]-jd_sunset[d])*(3.0/5.0))#madhyaratri1 end
t_21 = get_tithi(jd_sunset[d + 1] +
(jd_sunrise[d + 2] - jd_sunset[d + 1]) *
(7.0 / 15.0)) #nishita2 start
t_22 = get_tithi(jd_sunset[d + 1] +
(jd_sunrise[d + 2] - jd_sunset[d + 1]) *
(8.0 / 15.0)) #nishita2 end
#t_21 = get_tithi(jd_sunset[d+1]+(jd_sunrise[d+2]-jd_sunset[d+1])*(2.0/5.0))#madhyaratri2 start
#t_22 = get_tithi(jd_sunset[d+1]+(jd_sunrise[d+2]-jd_sunset[d+1])*(3.0/5.0))#madhyaratri2 end
if t_11 == 23 or t_12 == 23:
if t_21 == 23 or t_22 == 23:
festival_day_list[janmashtami[script]] = [d + 1]
else:
festival_day_list[janmashtami[script]] = [d]
#SHIVARATRI
if moon_month[d] == 11:
if tithi_sunrise[d] == 28 or tithi_sunrise[d] == 29:
t_11 = get_tithi(jd_sunset[d] +
(jd_sunrise[d + 1] - jd_sunset[d]) *
(7.0 / 15.0)) #nishita1 start
t_12 = get_tithi(jd_sunset[d] +
(jd_sunrise[d + 1] - jd_sunset[d]) *
(8.0 / 15.0)) #nishita1 end
t_21 = get_tithi(jd_sunset[d + 1] +
(jd_sunrise[d + 2] - jd_sunset[d + 1]) *
(7.0 / 15.0)) #nishita2 start
t_22 = get_tithi(jd_sunset[d + 1] +
(jd_sunrise[d + 2] - jd_sunset[d + 1]) *
(8.0 / 15.0)) #nishita2 end
if t_11 == 29 or t_12 == 29:
if t_21 == 29 or t_22 == 29:
festival_day_list[shivaratri[script]] = [d + 1]
else:
festival_day_list[shivaratri[script]] = [d]
#VINAYAKA CHATURTHI
if moon_month[d] == 6:
if tithi_sunrise[d] == 3 or tithi_sunrise[d] == 4:
t_11 = get_tithi(jd_sunrise[d] +
(jd_sunset[d] - jd_sunrise[d]) *
(2.0 / 5.0)) #madhyahna1 start
t_12 = get_tithi(jd_sunrise[d] +
(jd_sunset[d] - jd_sunrise[d]) *
(3.0 / 5.0)) #madhyahna1 end
t_21 = get_tithi(jd_sunrise[d + 1] +
(jd_sunset[d + 1] - jd_sunrise[d + 1]) *
(2.0 / 5.0)) #madhyahna2 start
t_22 = get_tithi(jd_sunrise[d + 1] +
(jd_sunset[d + 1] - jd_sunrise[d + 1]) *
(3.0 / 5.0)) #madhyahna2 end
if t_11 == 4 or t_12 == 4:
if t_21 == 4 or t_22 == 4:
festival_day_list[vchaturthi[script]] = [d + 1]
else:
festival_day_list[vchaturthi[script]] = [d]
#Add saved festivals
festival_day_list[gayatri_japam[script]] = [
festival_day_list[yajur_upakarma[script]][0] + 1
]
festival_day_list[varalakshmi_vratam[script]] = [
festival_day_list[yajur_upakarma[script]][0] -
((weekday_start - 1 + festival_day_list[yajur_upakarma[script]][0] - 5)
% 7)
]
#KARADAYAN_NOMBU
for x in iter(festival_day_list.keys()):
for j in range(0, len(festival_day_list[x])):
if festivals[festival_day_list[x][j]] != '':
festivals[festival_day_list[x][j]] += '\\\\'
festivals[festival_day_list[x][j]] += x
###--- ECLIPSES ---###
###--- LUNAR ECLIPSES ---###
swisseph.set_topo(lon=longitude, lat=latitude, alt=0.0) #Set location
jd = jd_start
while 1:
next_ecl_lun = swisseph.lun_eclipse_when(jd)
jd = next_ecl_lun[1][0] + (tz_off / 24.0)
jd_ecl_lun_start = next_ecl_lun[1][2] + (tz_off / 24.0)
jd_ecl_lun_end = next_ecl_lun[1][3] + (tz_off / 24.0)
ecl_y = swisseph.revjul(
jd - 1
)[0] # -1 is to not miss an eclipse that occurs after sunset on 31-Dec!
if ecl_y != start_year:
break
else:
ecl_lun_start = swisseph.revjul(jd_ecl_lun_start)[3]
ecl_lun_end = swisseph.revjul(jd_ecl_lun_end)[3]
if (jd_ecl_lun_start -
(tz_off / 24.0)) == 0.0 or (jd_ecl_lun_end -
(tz_off / 24.0)) == 0.0:
jd = jd + 20 #Move towards the next eclipse... at least the next full moon (>=25 days away)
continue
fday = int(math.floor(jd_ecl_lun_start) - math.floor(jd_start) + 1)
#print '%%',jd,fday,jd_sunrise[fday],jd_sunrise[fday-1]
if (jd < (jd_sunrise[fday] + tz_off / 24.0)):
fday -= 1
if ecl_lun_start < swisseph.revjul(jd_sunrise[fday + 1] +
tz_off / 24.0)[3]:
ecl_lun_start += 24
#print '%%',jd,fday,jd_sunrise[fday],jd_sunrise[fday-1],ecl_lun_start, ecl_lun_end
jd_moonrise_ecl_day = swisseph.rise_trans(
jd_start=jd_sunrise[fday],
body=swisseph.MOON,
lon=longitude,
lat=latitude,
rsmi=swisseph.CALC_RISE
| swisseph.BIT_DISC_CENTER)[1][0] + (tz_off / 24.0)
jd_moonset_ecl_day = swisseph.rise_trans(
jd_start=jd_moonrise_ecl_day,
body=swisseph.MOON,
lon=longitude,
lat=latitude,
rsmi=swisseph.CALC_SET
| swisseph.BIT_DISC_CENTER)[1][0] + (tz_off / 24.0)
#if jd_ecl_lun_start<(jd_sunrise[fday]+(tz_off/24.0)):
if ecl_lun_end < ecl_lun_start:
ecl_lun_end += 24
#print '%%', (jd_ecl_lun_start), (jd_ecl_lun_end), (jd_moonrise_ecl_day), (jd_moonset_ecl_day)
#print '%%', swisseph.revjul(jd_ecl_lun_start), swisseph.revjul(jd_ecl_lun_end), swisseph.revjul(jd_moonrise_ecl_day), swisseph.revjul(jd_moonset_ecl_day)
if jd_ecl_lun_end < jd_moonrise_ecl_day or jd_ecl_lun_start > jd_moonset_ecl_day:
jd = jd + 20 #Move towards the next eclipse... at least the next full moon (>=25 days away)
continue
lun_ecl_str = chandra_grahanam[script] + '~\\textsf{' + print_time2(
ecl_lun_start) + '}{\\RIGHTarrow}\\textsf{' + print_time2(
ecl_lun_end) + '}'
if festivals[fday] != '':
festivals[fday] += '\\\\'
festivals[fday] += lun_ecl_str
jd = jd + 20
###--- SOLAR ECLIPSES ---###
swisseph.set_topo(lon=longitude, lat=latitude, alt=0.0) #Set location
jd = jd_start
while 1:
next_ecl_sol = swisseph.sol_eclipse_when_loc(julday=jd,
lon=longitude,
lat=latitude)
jd = next_ecl_sol[1][0] + (tz_off / 24.0)
jd_ecl_sol_start = next_ecl_sol[1][1] + (tz_off / 24.0)
jd_ecl_sol_end = next_ecl_sol[1][4] + (tz_off / 24.0)
ecl_y = swisseph.revjul(
jd - 1
)[0] # -1 is to not miss an eclipse that occurs after sunset on 31-Dec!
if ecl_y != start_year:
break
else:
#print '%%', fday, (jd_ecl_sol_start), (jd_ecl_sol_end), (jd_sunrise[fday])
#print '%%', swisseph.revjul(jd_ecl_sol_start), swisseph.revjul(jd_ecl_sol_end), swisseph.revjul(jd_sunrise[fday])
fday = int(math.floor(jd) - math.floor(jd_start) + 1)
if (jd < (jd_sunrise[fday] + tz_off / 24.0)):
fday -= 1
#print '%%', fday, (jd_ecl_sol_start), (jd_ecl_sol_end), (jd_sunrise[fday])
#print '%%', swisseph.revjul(jd_ecl_sol_start), swisseph.revjul(jd_ecl_sol_end), swisseph.revjul(jd_sunrise[fday])
ecl_sol_start = swisseph.revjul(jd_ecl_sol_start)[3]
ecl_sol_end = swisseph.revjul(jd_ecl_sol_end)[3]
if (jd_ecl_sol_start - (tz_off / 24.0)) == 0.0 or (
jd_ecl_sol_end - (tz_off / 24.0)
) == 0.0: # or jd_ecl_end<jd_sunrise[fday] or jd_ecl_start>jd_sunset[fday]:
jd = jd + 20 #Move towards the next eclipse... at least the next new moon (>=25 days away)
continue
if ecl_sol_end < ecl_sol_start:
ecl_sol_end += 24
sol_ecl_str = surya_grahanam[script] + '~\\textsf{' + print_time2(
ecl_sol_start) + '}{\\RIGHTarrow}\\textsf{' + print_time2(
ecl_sol_end) + '}'
if festivals[fday] != '':
festivals[fday] += '\\\\'
festivals[fday] += sol_ecl_str
jd = jd + 20
###--- FESTIVAL ADDITIONS COMPLETE ---###
###--- PRINT LIST OF FESTIVALS (Page 2) ---###
if script == 'en':
cal = Calendar()
print '\\newpage'
print '\\centerline {\\LARGE {{%s}}}\\mbox{}\\\\[2cm]' % list_of_festivals[
script]
print '\\begin{center}'
print '\\begin{minipage}[t]{0.3\\linewidth}'
print '\\begin{center}'
print '\\begin{tabular}{>{\\sffamily}r>{\\sffamily}r>{\\sffamily}cp{6cm}}'
mlast = 1
for d in range(1, 367):
jd = jd_start - 1 + d
[y, m, dt, t] = swisseph.revjul(jd)
weekday = (weekday_start - 1 + d) % 7
if festivals[d] != '':
if m != mlast:
mlast = m
#print '\\hline\\\\'
print '\\\\'
if m == 5 or m == 9:
print '\\end{tabular}'
print '\\end{center}'
print '\\end{minipage}\hspace{1cm}%'
print '\\begin{minipage}[t]{0.3\\linewidth}'
print '\\begin{center}'
print '\\begin{tabular}{>{\\sffamily}r>{\\sffamily}l>{\\sffamily}cp{6cm}}'
print '%s & %s & %s & {\\raggedright %s} \\\\' % (
MON[m], dt, WDAY[weekday], festivals[d])
if script == 'en':
event = Event()
event.add('summary', festivals[d])
event.add('dtstart', datetime(y, m, dt))
event.add('dtend', datetime(y, m, dt))
cal.add_component(event)
if m == 12 and dt == 31:
break
print '\\end{tabular}'
print '\\end{center}'
print '\\end{minipage}'
print '\\end{center}'
print '\\clearpage'
if script == 'en':
cal_fname = '%s-%4d.ics' % (city_name, start_year)
cal_file = open(cal_fname, 'w')
cal_file.write(cal.as_string())
cal_file.close()
#Layout calendar in LATeX format
#We use a separate loop here, because of festivals like varalakshmi
#vratam, for which we backtrack to the previous friday from yajur
#upakarma and change the list of festivals!
for d in range(1, 367):
jd = jd_start - 1 + d
[y, m, dt, t] = swisseph.revjul(jd)
weekday = (weekday_start - 1 + d) % 7
if dt == 1:
if m > 1:
if weekday != 0: #Space till Sunday
for i in range(weekday, 6):
print "{} &"
print "\\\\ \hline"
print '\end{tabular}'
print '\n\n'
#Begin tabular
print '\\begin{tabular}{|c|c|c|c|c|c|c|}'
print '\multicolumn{7}{c}{\Large \\bfseries \sffamily %s %s}\\\\[3mm]' % (
month[m], y)
print '\hline'
print '\\textbf{\\textsf{SUN}} & \\textbf{\\textsf{MON}} & \\textbf{\\textsf{TUE}} & \\textbf{\\textsf{WED}} & \\textbf{\\textsf{THU}} & \\textbf{\\textsf{FRI}} & \\textbf{\\textsf{SAT}} \\\\ \hline'
#print '\\textbf{भानु} & \\textbf{इन्दु} & \\textbf{भौम} & \\textbf{बुध} & \\textbf{गुरु} & \\textbf{भृगु} & \\textbf{स्थिर} \\\\ \hline'
#Blanks for previous weekdays
for i in range(0, weekday):
print "{} &"
print '\caldata{\\textcolor{%s}{%s}}{%s{%s}}{\\sundata{%s}{%s}{%s}}{\\tnyk{%s}{%s}{%s}{%s}}{\\rahuyama{%s}{%s}}{%s} ' % (
daycol[weekday], dt, month_data[d],
get_chandra_masa(moon_month[d], chandra_masa_names, script),
sunrise[d], sunset[d], madhya[d], tithi_data_string[d],
nakshatram_data_string[d], yogam_data_string[d],
karanam_data_string[d], rahu[d], yama[d], festivals[d])
if weekday == 6:
print "\\\\ \hline"
else:
print "&"
if m == 12 and dt == 31:
break
# For debugging specific dates
#if m==4 and dt==10:
# break
for i in range(weekday + 1, 6):
print "{} &"
if weekday != 6:
print "\\\\ \hline"
print '\end{tabular}'
print '\n\n'
print template_lines[-2][:-1]
print template_lines[-1][:-1]
import swisseph as swe
#swe.set_ephe_path('/usr/share/ephe') # set path to ephemeris files
now = swe.julday(2007,3,3) # get Julian day number
res = swe.lun_eclipse_when(now) # find next lunar eclipse (from now on)
ecltime = swe.revjul(res[1][0]) # get date UTC
print (ecltime)
dia = sys.argv[1]
mes = sys.argv[2]
anio = sys.argv[3]
tipoLuminaria = sys.argv[4]
tipoEclipse = sys.argv[5]
swe.set_ephe_path('/usr/share/libswe/ephe')
d = datetime.datetime(int(anio), int(mes), int(dia), int(0), int(0))
jd1 = jdutil.datetime_to_jd(d)
grado = 0
if int(tipoLuminaria) == 1:
e = swe.lun_eclipse_when(jd1, int(tipoEclipse), False, swe.FLG_SWIEPH)
else:
e = swe.sol_eclipse_when_glob(jd1, int(tipoEclipse), False, swe.FLG_SWIEPH)
for ecs in e:
for ecs2 in ecs:
#print(ecs2)
jdE1 = float(ecs2)
dateEc1 = jdutil.jd_to_date(jdE1)
if float(dateEc1[0]) > 1:
#print(dateEc1)
d = datetime.datetime(int(dateEc1[0]), int(dateEc1[1]),
int(dateEc1[2]))
jd1 = jdutil.datetime_to_jd(d)
pos = swe.calc_ut(jd1,
int(tipoLuminaria),
import swisseph as swe
#swe.set_ephe_path('/usr/share/ephe') # set path to ephemeris files
now = swe.julday(2007, 3, 3) # get Julian day number
res = swe.lun_eclipse_when(now) # find next lunar eclipse (from now on)
ecltime = swe.revjul(res[1][0]) # get date UTC
print(ecltime)
temp = swe.revjul(jul_number)
year = temp[0]
month = temp[1]
day = temp[2]
min_temp, hour = math.modf(temp[3])
sec_temp, min = math.modf(min_temp * 60)
sub_sec, sec = math.modf(sec_temp * 60)
return datetime.datetime(year, month, day, int(hour), int(min), int(sec))
# ###lunar eclipses
print 'When next Lunar Eclipse'
print '------------------------'
now = swe.julday(2016, 3, 23)
time_zone = 0 # we have to look up time zone from lat/long
res = swe.lun_eclipse_when(now)
res_how = swe.lun_eclipse_how(res[1][0], 139.7, 35.68)
print res
print res_how
eclip_time = swe.revjul(res[1][0]) # utc
# print len(res[1]),res[0],res[1],eclip_time,bin(res[0][0])
ecl_central = int('00000001', 2)
central = res[0][0] & ecl_central
if central == 1:
print 'Eclipse Central'
ecl_noncentral = int('00000010', 2)
central = res[0][0] & ecl_noncentral
if central == 2:
print 'Eclipse Non Central'
eclipse_total = int('00000100', 2)
central = res[0][0] & eclipse_total
def lunar(time_zone, year, month, day, location_latitude, location_longitude):
# ###lunar eclipses
lunar_eclipse = {}
now = swe.julday(year, month, day)
res = swe.lun_eclipse_when(now)
res_how = swe.lun_eclipse_how(res[1][0], 139.7, 35.68)
#print res
#print res_how
eclip_time = swe.revjul(res[1][0]) # utc
# print len(res[1]),res[0],res[1],eclip_time,bin(res[0][0])
ecl_central_or_not = ''
duration_penumbral = ''
ecl_central = int('00000001', 2)
central = res[0][0] & ecl_central
if central == 1:
ecl_central_or_not = 'Eclipse Central'
ecl_noncentral = int('00000010', 2)
central = res[0][0] & ecl_noncentral
if central == 2:
ecl_central_or_not = 'Eclipse Non Central'
eclipse_total = int('00000100', 2)
central = res[0][0] & eclipse_total
if central == 4:
Type = 'Eclipse Total'
start = (date_convert(res[1][6]) + datetime.timedelta(hours=time_zone))
#print 'Start partial', date_convert(res[1][2]) + datetime.timedelta(hours=time_zone)
#print 'Start Total ', date_convert(res[1][4]) + datetime.timedelta(hours=time_zone)
maxi = (date_convert(res[1][0]) + datetime.timedelta(hours=time_zone))
#print 'End Total ', date_convert(res[1][5]) + datetime.timedelta(hours=time_zone)
#print 'End partial ', date_convert(res[1][3]) + datetime.timedelta(hours=time_zone)
end = (date_convert(res[1][7]) + datetime.timedelta(hours=time_zone))
duration_penumbral = (date_convert(res[1][7]) - date_convert(res[1][6]))
duration_umbral = (date_convert(res[1][3]) - date_convert(res[1][2]))
#print 'Total ', date_convert(res[1][5]) - date_convert(res[1][4])
eclipse_annualar = int('00001000', 2)
central = res[0][0] & eclipse_annualar
if central == 8:
Type = 'Eclipse Annular'
eclipse_partial = int('0010000', 2)
central = res[0][0] & eclipse_partial
if central == 16:
Type = 'Eclipse Partial'
start = (date_convert(res[1][6]) + datetime.timedelta(hours=time_zone))
#print 'Start partial', date_convert(res[1][2]) + datetime.timedelta(hours=time_zone)
maxi = (date_convert(res[1][0]) + datetime.timedelta(hours=time_zone))
#print 'End partial ', date_convert(res[1][3]) + datetime.timedelta(hours=time_zone)
end = (date_convert(res[1][7]) + datetime.timedelta(hours=time_zone))
duration_penumbral = (date_convert(res[1][7]) - date_convert(res[1][6]))
duration_umbral = (date_convert(res[1][3]) - date_convert(res[1][2]))
eclipse_ann_total = int('0100000', 2)
central = res[0][0] & eclipse_ann_total
if central == 32:
Type = 'Eclipse Penumbral'
eclipse_ann_total = int('1000000', 2)
central = res[0][0] & eclipse_ann_total
if central == 64:
Type = 'Eclipse Penumbral'
start = (date_convert(res[1][6]) + datetime.timedelta(hours=time_zone))
maxi = (date_convert(res[1][0]) + datetime.timedelta(hours=time_zone))
end = (date_convert(res[1][7]) + datetime.timedelta(hours=time_zone))
duration_umbral = (date_convert(res[1][7]) - date_convert(res[1][6]))
soros_cycle = int(res_how[1][9])
soros_number = int(res_how[1][10])
magnitude_umbral = res_how[1][0]
magnitude_penumbral = res_how[1][1]
pos_p = swe.calc_ut(res[1][0], 0)
signs = birthchart.natal_planet_signs(pos_p)
sun_pos = pos_p[0]
sun_zodiac = constants.SIGN_ZODIAC[signs[0]]
pos_p = swe.calc_ut(res[1][0], 1)
signs = birthchart.natal_planet_signs(pos_p)
moon_pos = pos_p[0]
moon_zodiac = constants.SIGN_ZODIAC[signs[0]]
lunar_eclipse = {'ecl_central_or_not' : ecl_central_or_not, 'soros_cycle' : soros_cycle,
'sun_pos' : sun_pos, 'sun_zodiac' : sun_zodiac, 'moon_pos' : moon_pos, 'moon_zodiac' : moon_zodiac,
'start' : str(start), 'max' : str(maxi), 'soros_number' : soros_number, 'magnitude_umbral' : magnitude_umbral,
'end' : str(end), 'Type' : Type, 'magnitude_penumbral' : magnitude_penumbral, 'duration_umbral' : str(duration_umbral),
'duration_penumbral' : str(duration_penumbral)}
return lunar_eclipse
