def show(self, y, m, d, t, cnt): proftype = chart.Chart.YEAR if self.zodprofs: prof = profections.Profections(self.chart, y, m, d, t, cnt) pchart = chart.Chart(self.chart.name, self.chart.male, self.chart.time, self.chart.place, chart.Chart.PROFECTION, '', self.options, False, proftype) pchart.calcProfPos(prof) else: if not self.usezodprojs and (y+cnt == self.chart.time.year or (y+cnt-self.chart.time.year) % 12 == 0) and m == self.chart.time.month and d == self.chart.time.day: pchart = self.chart else: prof = munprofections.MunProfections(self.chart, y, m, d, t, cnt) proflondeg, proflonmin, proflonsec = util.decToDeg(prof.lonZ) profplace = chart.Place(mtexts.txts['Profections'], proflondeg, proflonmin, proflonsec, prof.east, self.chart.place.deglat, self.chart.place.minlat, self.chart.place.seclat, self.chart.place.north, self.chart.place.altitude) pchart = chart.Chart(self.chart.name, self.chart.male, self.chart.time, profplace, chart.Chart.PROFECTION, '', self.options, False, proftype, self.options.usezodprojsprof) pchartpls = chart.Chart(self.chart.name, self.chart.male, self.chart.time, self.chart.place, chart.Chart.PROFECTION, '', self.options, False, proftype, self.options.usezodprojsprof) #modify planets, ... pchart.planets.calcMundaneProfPos(pchart.houses.ascmc2, pchartpls.planets.planets, self.chart.place.lat, self.chart.obl[0]) #modify lof pchart.fortune.calcMundaneProfPos(pchart.houses.ascmc2, pchartpls.fortune, self.chart.place.lat, self.chart.obl[0]) #recalc AspMatrix pchart.calcAspMatrix() self.parent.change(pchart, self.caption, y+cnt, m, d, t) self.yeartxt.SetValue(str(y+cnt)) self.monthtxt.SetValue(str(m)) if self.zodprofs or self.usezodprojs: self.daytxt.SetValue(str(d))
def show(self, age): wait = wx.BusyCursor() y = self.chart.time.year#+age m = self.chart.time.month d = self.chart.time.day t = self.chart.time.time if self.feb29: d -= 1 self.agetxt.SetValue(str(age)) pcharts = [] cyc = 0 while(cyc < 12): if self.zodiacalprofs: prof = profections.Profections(self.chart, y, m, d, t, age+cyc) pchart = chart.Chart(self.chart.name, self.chart.male, self.chart.time, self.chart.place, chart.Chart.PROFECTION, '', self.options, False, self.proftype) pchart.calcProfPos(prof) else: if not self.usezodprojs and (y+age+cyc == self.chart.time.year or (y+age+cyc-self.chart.time.year) % 12 == 0) and m == self.chart.time.month and d == self.chart.time.day: pchart = self.chart else: prof = munprofections.MunProfections(self.chart, y+age+cyc, m, d, t) proflondeg, proflonmin, proflonsec = util.decToDeg(prof.lonZ) profplace = chart.Place(mtexts.txts['Profections'], proflondeg, proflonmin, proflonsec, prof.east, self.chart.place.deglat, self.chart.place.minlat, self.chart.place.seclat, self.chart.place.north, self.chart.place.altitude) pchart = chart.Chart(self.chart.name, self.chart.male, self.chart.time, profplace, chart.Chart.PROFECTION, '', self.options, False, self.proftype, self.options.usezodprojsprof) pchartpls = chart.Chart(self.chart.name, self.chart.male, self.chart.time, self.chart.place, chart.Chart.PROFECTION, '', self.options, False, self.proftype, self.options.usezodprojsprof) #modify planets, ... pchart.planets.calcMundaneProfPos(pchart.houses.ascmc2, pchartpls.planets.planets, self.chart.place.lat, self.chart.obl[0]) #modify lof pchart.fortune.calcMundaneProfPos(pchart.houses.ascmc2, pchartpls.fortune, self.chart.place.lat, self.chart.obl[0]) pcharts.append((pchart, y+age+cyc, m, d, t)) cyc += 1 self.parent.change(age, pcharts, self.options)
[
4.0, 2.0, 2.0, 2.0, 2.0, 4.0, 4.0, 2.0, 2.0, 2.0, 4.0, 2.0, 2.0, 2.0,
2.0, 2.0, 2.0, 2.0, 2.0
],
[
4.0, 2.0, 2.0, 2.0, 2.0, 4.0, 4.0, 2.0, 2.0, 2.0, 4.0, 2.0, 2.0, 2.0,
2.0, 2.0, 2.0, 2.0, 2.0
],
[
4.0, 2.0, 2.0, 2.0, 2.0, 4.0, 4.0, 2.0, 2.0, 2.0, 4.0, 2.0, 2.0, 2.0,
2.0, 2.0, 2.0, 2.0, 2.0
],
]
# instance of place, time and chart generation
place = chart.Place(place, deglon, minlon, 0, east, deglat, minlat, seclat,
north, altitude)
time = chart.event.DateTime(year, month, day, hour, minute, second, bc, cal,
zt, plus, zh, zm, daylightsaving, place, False)
chrt = chart.Chart(name, male, time, place, htype, notes, opts, False)
# calculate astrodinas
# chrt.astrodinas()
#chrt.printAspMatrix();
# read places DB to get NY place
#pdb = placedb.PlaceDB()
#pdb.read()
#pdb.searchPlace('New York, USA')
#trans.extraPlace(pdb.search_result)
header = "Date\tHour\tPT\tAS\tPR\tHR\tHT\tSI\tLON\tLAT\tSP\tPRLON\tS\t" \
"SU\tSUR\tSULO\tSULA\tSUSP\tSUD\tSURD\tSUS\tSUT\t" \
for asteroid in chrt.asteroids.asteroids:
lon = asteroid.data[planets.Planet.LONG]
lat = asteroid.data[planets.Planet.LAT]
speed = asteroid.data[planets.Planet.SPLON]
decl = asteroid.dataEqu[planets.Planet.DECLEQU]
out.append("%.2f\t%.2f\t%.3f\t%.2f\t" % (lon, lat, decl, speed))
sys.stdout.write(''.join(out))
opts = options.Options()
swisseph.set_ephe_path('../SWEP/Ephem')
# instance of place, time and chart generation
# Based on Greenwich place and UTC time.
place = chart.Place(None, 51, 29, 24, True, 0, 0, 0, True, 0)
time = chart.event.DateTime(2020, 8, 20, 0, 0, 0, False, 0, 0, True, 0, 0,
False, place)
chrt = chart.Chart("Daily Chart", False, time, place, 0, "", opts)
print("Date\tHour\t" \
"SULON\tSULAT\tSUDEC\tSUSP\t" \
"MOLON\tMOLAT\tMODEC\tMOSP\t" \
"MELON\tMELAT\tMEDEC\tMESP\t" \
"VELON\tVELAT\tVEDEC\tVESP\t" \
"MALON\tMALAT\tMADEC\tMASP\t" \
"JULON\tJULAT\tJUDEC\tJUSP\t" \
"SALON\tSALAT\tSADEC\tSASP\t" \
"URLON\tURLAT\tURDEC\tURSP\t" \
"NELON\tNELAT\tNEDEC\tNESP\t" \
"PLLON\tPLLAT\tPLDEC\tPLSP\t" \
#lat
idx = lat.find(u'N') #
if idx == -1:
idx = lat.find(u'S') #
north = False
if idx == -1:
print("Invalid lat string provided")
sys.exit()
else:
latdeg = int(lat[0:idx])
idx += 1
latmin = int(lat[idx:])
# place, time and chart generation
place = chart.Place('Place Name', deglon, degmin, 0, east, latdeg, latmin, 0,
north, altitude)
year, month, day, hour, minute, second = dt.tm_year, dt.tm_mon, dt.tm_mday, dt.tm_hour, dt.tm_min, dt.tm_sec
#place.tz
tzh, tzm, tzs = util.decToDeg(float(tz))
if tz[0] == '-':
tzplus = False
else:
tzplus = True
time = chart.event.DateTime(year, month, day, hour, minute, second, False,
astrology.SE_JUL_CAL, chart.event.DateTime.ZONE,
tzplus, tzh, tzm, False, place)
chrt = chart.Chart(chart_name, False, time, place, opts.hsys, 'notes', opts)
# Print chart positions
print(printPlanetsData(chrt))
seclat = pickle.load(f)
north = pickle.load(f)
altitude = pickle.load(f)
notes = pickle.load(f)
f.close()
except IOError:
print("error loading the chart")
opts = options.Options()
# override orb for exact aspects to 3.0
opts.exact = 3.0
# instance of place, time and chart generation
place = chart.Place(place, deglon, minlon, 0, east, deglat, minlat, seclat, north, altitude)
ny_place = chart.Place('New York', 74, 0, 0, False, 40, 42, 0, True, 43)
time = chart.event.DateTime(2005, 10, 3, 10, 0, 0, bc, cal, zt, plus, zh, zm, daylightsaving, place)
chrt = chart.Chart(name, male, time, place, htype, notes, opts)
swisseph.set_ephe_path('/Applications/Morinus.app/Contents/Resources/SWEP/Ephem')
calflag = astrology.SE_JUL_CAL
hour = 10
minute = 10
second = 0
time1 = hour+minute/60.0+second/3600.0
tjd = swisseph.julday(2013, 3, 1, time1, calflag)
retflag = swisseph.sol_eclipse_when_loc(tjd, astrology.SEFLG_SWIEPH, ny_place.lon, ny_place.lat, astrology.SE_ECL_ALLTYPES_SOLAR, False);
#retflag = swisseph.sol_eclipse_when_glob(tjd, astrology.SEFLG_SWIEPH, astrology.SE_ECL_ALLTYPES_SOLAR, False);
jd = retflag[1][0]
eclflag = retflag[0][0]
"JULON\tJULAT\tJUDEC\tJUSP\t" \
"SALON\tSALAT\tSADEC\tSASP\t" \
"URLON\tURLAT\tURDEC\tURSP\t" \
"NELON\tNELAT\tNEDEC\tNESP\t" \
"PLLON\tPLLAT\tPLDEC\tPLSP\t" \
"NNLON\tNNLAT\tNNDEC\tNNSP\t" \
"SNLON\tSNLAT\tSNDEC\tSNSP\t" \
"ASLON\tASLAT\tASDEC\tASSP\t" \
"MCLON\tMCLAT\tMCDEC\tMCSP\t"
with open('Hors/birthdates.csv', 'rb') as f:
reader = csv.DictReader(f, delimiter='\t', quoting=csv.QUOTE_NONE)
for row in reader:
# Need to import for each iteration or it brokes
import time
dt = time.strptime(row['Date'], '%Y-%m-%d %H:%M:%S')
# place, time and chart generation
ny_place = chart.Place('New York', 74, 0, 21, False, 40, 42, 51, True,
10)
year, month, day, hour, minute, second = dt.tm_year, dt.tm_mon, dt.tm_mday, dt.tm_hour, dt.tm_min, dt.tm_sec
zone_hour, zone_minute, zone_second = util.decToDeg(float(row['ZH']))
symbol = row['Symbol']
time = chart.event.DateTime(year, month, day, hour, minute, second,
False, astrology.SE_JUL_CAL,
chart.event.DateTime.ZONE, False,
zone_hour, 0, False, ny_place)
chrt = chart.Chart(symbol, False, time, ny_place, opts.hsys, 'notes',
opts)
# Print chart positions
printPlanetsData(chrt)
