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horoscope.py
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horoscope.py
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#!/usr/bin/env python
# -*- coding: UTF-8 -*-
# py -- routines for computing tithi, vara, etc.
#
# Copyright (C) Sundar Sundaresan, USA. carnaticmusicguru2015@comcast.net
# Downloaded from https://github.com/naturalstupid/pyhoroscope
#
# This file is part of the "drik-panchanga" Python library
# for computing Hindu luni-solar calendar based on the Swiss ephemeris
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU Affero General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU Affero General Public License for more details.
#
# You should have received a copy of the GNU Affero General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
import swisseph as swe
from _datetime import datetime, timedelta
from datetime import date
panchanga = __import__('panchanga')
dhasavarga_dict = {}
class Horoscope():
def __init__(self,place_with_country_code=None,latitude=None,longitude=None,timezone_offset=None,date_in=None,birth_time=None,ayanamsa_mode="Lahiri",ayanamsa_value=None):
self.place_name = place_with_country_code
self.latitude = latitude
self.longitude = longitude
self.timezone_offset = timezone_offset
self.date = date_in
self.birth_time = birth_time
self.ayanamsa_mode = ayanamsa_mode
self.ayanamsa_value = ayanamsa_value
#print(self.place_name,self.latitude,self.longitude,self.timezone_offset)
if self.place_name == None:
if self.latitude==None or self.longitude==None or self.timezone_offset==None:
print('Please provide either place_with_country_code or combination of latitude and longitude ...\n Aborting script')
exit()
else:
self.place_name = 'Not Provided'
self.latitude = latitude
self.longitude = longitude
self.timezone_offset = timezone_offset
else:
if self.latitude==None or self.longitude==None or self.timezone_offset==None:
[_,self.latitude,self.longitude,self.timezone_offset] = \
panchanga.get_latitude_longitude_from_place_name(place_with_country_code)
if date_in==None:
self.date = panchanga.Date(date.today().year,date.today().month,date.today().day)
else:
self.date = panchanga.Date(date_in.year,date_in.month,date_in.day)
self.julian_utc = panchanga.gregorian_to_jd(self.date)
#self.timezone_offset = panchanga.get_place_timezone_offset(self.latitude,self.longitude)
""" !!!!!!!!!!!! Including birth time gives WRONG RESULTS !!!!!!!!! """
""" TODO Handle BC date using Panchanga Date Struct """
if (birth_time!=None):
""" TODO Convert time to 24 hr time """
birth_time = birth_time.strip().replace('AM','').replace('PM','')
btArr = birth_time.split(':')
self.julian_day = swe.julday(self.date.year,self.date.month,self.date.day, int(btArr[0])+int(btArr[1])/60)
self.birth_time = (int(btArr[0]),int(btArr[1]),0)
if (len(btArr)==3):
self.julian_day = swe.julday(self.date.year,self.date.month,self.date.day, int(btArr[0])+int(btArr[1])/60+int(btArr[2])/3600)
self.birth_time = (int(btArr[0]),int(btArr[1]),int(btArr[2]))
else:
self.julian_day = panchanga.gregorian_to_jd(self.date)
# Set Ayanamsa Mode
key = ayanamsa_mode.upper()
#print('horoscope setting ayanamsa',key,self.ayanamsa_value,self.julian_day)
panchanga.set_ayanamsa_mode(key,self.ayanamsa_value,self.julian_day)
self.ayanamsa_value = panchanga.get_ayanamsa_value(self.julian_day)
return
def _get_planet_list(self):
global PLANET_NAMES,PLANET_SHORT_NAMES
return PLANET_NAMES,PLANET_SHORT_NAMES
def _get_raasi_list(self):
global RAASI_LIST,RAASI_SHORT_LIST
return RAASI_LIST,RAASI_SHORT_LIST
def _get_calendar_resource_strings(self, language='en'):
inpFile = 'list_values_'+language+'.txt'
msgFile = 'msg_strings_'+language+'.txt'
cal_key_list=panchanga.read_list_types_from_file(msgFile)
global PLANET_NAMES,NAKSHATRA_LIST,TITHI_LIST,RAASI_LIST,KARANA_LIST,DAYS_LIST,PAKSHA_LIST,YOGAM_LIST,MONTH_LIST,YEAR_LIST,DHASA_LIST,BHUKTHI_LIST,PLANET_SHORT_NAMES,RAASI_SHORT_LIST
[PLANET_NAMES,NAKSHATRA_LIST,TITHI_LIST,RAASI_LIST,KARANA_LIST,DAYS_LIST,
PAKSHA_LIST,YOGAM_LIST,MONTH_LIST,YEAR_LIST,DHASA_LIST,BHUKTHI_LIST,PLANET_SHORT_NAMES,RAASI_SHORT_LIST
] = panchanga.read_lists_from_file(inpFile)
return cal_key_list
def get_calendar_information(self, language='en', as_string=False):
jd = self.julian_utc # self.julian_day
place = panchanga.Place(self.place_name,self.latitude,self.longitude,self.timezone_offset)
cal_key_list = self._get_calendar_resource_strings(language)
calendar_info = {
cal_key_list['place_str'] : self.place_name,
cal_key_list['latitude_str'] : panchanga.to_dms(self.latitude,is_lat_long='lat'), #"{0:.2f}".format(self.latitude),
cal_key_list['longitude_str'] : panchanga.to_dms(self.longitude,is_lat_long='long'), # "{0:.2f}".format(self.longitude),
cal_key_list['timezone_offset_str'] : "{0:.2f}".format(self.timezone_offset),
cal_key_list['report_date_str'] : "{0:d}-{1:d}-{2:d}".format(self.date.year,self.date.month,self.date.day)#self.date.isoformat(),
}
vaaram = panchanga.vaara(jd,as_string)
calendar_info[cal_key_list['vaaram_str']]=vaaram
jd = self.julian_day
is_bc_year = self.date.year < 0
if (is_bc_year):
maasam_no = panchanga.maasa(jd,place,False)[0]
maasam = MONTH_LIST[maasam_no-1]
calendar_info[cal_key_list['maasa_str']] = maasam
else:
[maasam_no,day_no] = [panchanga.maasa(jd,place,False)[0], panchanga.tamil_date(self.date,jd, place)]
maasam = MONTH_LIST[maasam_no-1]
calendar_info[cal_key_list['maasa_str']] = maasam +" "+cal_key_list['date_str']+' '+str(day_no)
[kali_year, vikrama_year,saka_year] = panchanga.elapsed_year(jd,maasam_no)
calendar_info[cal_key_list['kali_year_str']] = kali_year
calendar_info[cal_key_list['vikrama_year_str']] = vikrama_year
calendar_info[cal_key_list['saka_year_str']] = saka_year
_samvatsara = panchanga.samvatsara(jd,maasam_no,as_string)
calendar_info[cal_key_list['samvatsara_str']] = _samvatsara
sun_rise = panchanga.sunrise(self.julian_utc,place,as_string)
calendar_info[cal_key_list['sunrise_str']] = sun_rise[1]
sun_set = panchanga.sunset(self.julian_utc,place,as_string)
calendar_info[cal_key_list['sunset_str']] = sun_set[1]
moon_rise = panchanga.moonrise(self.julian_utc,place,as_string)
calendar_info[cal_key_list['moonrise_str']] = moon_rise
moon_set = panchanga.moonset(self.julian_utc,place,as_string)
calendar_info[cal_key_list['moonset_str']] = moon_set
""" for tithi at sun rise time - use Julian UTC """
calendar_info[cal_key_list['tithi_str']]= panchanga.tithi(self.julian_utc,place,as_string)
jd = self.julian_day
calendar_info[cal_key_list['raasi_str']] = panchanga.get_raasi_new(jd,place,as_string)
calendar_info[cal_key_list['nakshatra_str']] = panchanga.nakshatra(jd,place,as_string)
self._nakshatra_number, self._paadha_number,_=panchanga.nakshatra(jd,place,as_string=False)
""" # For kaalam, yogam use sunrise time """
jd = self.julian_utc
_raahu_kaalam = panchanga.raahu_kaalam(jd,place,as_string)
calendar_info[cal_key_list['raahu_kaalam_str']] = _raahu_kaalam
kuligai = panchanga.gulikai_kaalam(jd,place,as_string)
calendar_info[cal_key_list['kuligai_str']] = kuligai
yamagandam = panchanga.yamaganda_kaalam(jd,place,as_string)
calendar_info[cal_key_list['yamagandam_str']] = yamagandam
yogam = panchanga.yoga(jd,place,as_string)
calendar_info[cal_key_list['yogam_str']] = yogam
karanam = panchanga.karana(jd,place,as_string)
calendar_info[cal_key_list['karanam_str']] = karanam
abhijit = panchanga.abhijit_muhurta(jd,place,as_string)
calendar_info[cal_key_list['abhijit_str']] = abhijit
_dhurmuhurtham = panchanga.durmuhurtam(jd,place,as_string)
calendar_info[cal_key_list['dhurmuhurtham_str']] = _dhurmuhurtham
return calendar_info
def get_horoscope_chart_counter(self,chart_key):
global dhasavarga_dict
value_list = list(dhasavarga_dict.values())
counter = [ index for index,value in enumerate(value_list) if chart_key in value][0]
return counter
def get_horoscope_information(self,language='en', as_string=False):
horoscope_info = {}
cal_key_list = self._get_calendar_resource_strings(language)
global dhasavarga_dict
dhasavarga_dict={2:cal_key_list['hora_str'],
3:cal_key_list['drekkanam_str'],
4:cal_key_list['chaturthamsa_str'],
5:cal_key_list['panchamsa_str'],
6:cal_key_list['shashthamsa_str'],
7:cal_key_list['saptamsam_str'],
8:cal_key_list['ashtamsa_str'],
9:cal_key_list['navamsam_str'],
10:cal_key_list['dhasamsam_str'],
11:cal_key_list['rudramsa_str'],
12:cal_key_list['dhwadamsam_str'],
16:cal_key_list['shodamsa_str'],
20:cal_key_list['vimsamsa_str'],
24:cal_key_list['chaturvimsamsa_str'],
27:cal_key_list['nakshatramsa_str'],
30:cal_key_list['thrisamsam_str'],
40:cal_key_list['khavedamsa_str'],
45:cal_key_list['akshavedamsa_str'],
60:cal_key_list['sashtiamsam_str']
}
jd = self.julian_day # For ascendant and planetary positions, dasa buthi - use birth time
place = panchanga.Place(self.place_name,self.latitude,self.longitude,self.timezone_offset)
dob = panchanga.Date(self.date.year,self.date.month,self.date.day)
bt=self.birth_time
tob = bt[0]+bt[1]/60.0+bt[2]/3600.0
as_string=True
_ascendant = panchanga.ascendant(jd,place,as_string)
horoscope_charts = [[ '' for x in range(len(RAASI_LIST))] for y in range(len(dhasavarga_dict)+1)]
chart_counter = 0
dhasa_varga_factor=1
key = cal_key_list['raasi_str']+'-'+cal_key_list['bhava_lagna_str']
value = panchanga.bhava_lagna(jd,place,tob,dhasa_varga_factor,as_string=True)
horoscope_info[key] = value
key = cal_key_list['raasi_str']+'-'+cal_key_list['hora_lagna_str']
value = panchanga.hora_lagna(jd,place,tob,dhasa_varga_factor,as_string=True)
horoscope_info[key] = value
key = cal_key_list['raasi_str']+'-'+cal_key_list['ghati_lagna_str']
value = panchanga.ghati_lagna(jd,place,tob,dhasa_varga_factor,as_string=True)
horoscope_info[key] = value
key = cal_key_list['raasi_str'] +'-'+cal_key_list['sree_lagna_str']
value = panchanga.sree_lagna(jd,place,dhasa_varga_factor,as_string=True)
horoscope_info[key] = value
if as_string:
asc_house = RAASI_LIST.index(_ascendant.split()[0])
horoscope_charts[chart_counter][asc_house] += cal_key_list['ascendant_str'] +"\n"
else:
asc_house = _ascendant[0]
horoscope_charts[chart_counter][asc_house] += cal_key_list['ascendant_str'] +"\n"
horoscope_info[cal_key_list['raasi_str']+'-'+cal_key_list['ascendant_str']] = _ascendant
# assign navamsa data
planet_positions = panchanga.planetary_positions(jd,place,as_string)
for sublist in planet_positions:
#print('sublist',sublist)
if as_string:
planet_name = sublist[0]
k = cal_key_list['raasi_str']+'-'+planet_name
v = sublist[1]
planet_house = RAASI_LIST.index(v.split()[0])
horoscope_charts[chart_counter][planet_house] += planet_name + "\n"
relative_planet_house = panchanga.get_relative_house_of_planet(asc_house, planet_house)
horoscope_info[k]=v+'-House #'+str(relative_planet_house)
else:
planet_name = PLANET_NAMES[sublist[0]]
k = cal_key_list['raasi_str']+'-'+planet_name
v = sublist[:]
#print('k',k,'v',v)
planet_house = sublist[2]
horoscope_charts[chart_counter][planet_house] += planet_name + "\n"
relative_planet_house = panchanga.get_relative_house_of_planet(asc_house, planet_house)
horoscope_info[k]=v + [relative_planet_house]
# Shadow Sub Planet information
k = cal_key_list['raasi_str']+'-'+cal_key_list['upagraha_str']
horoscope_info[k]=''
sub_planet_list_1 = {'kaala_str':'kaala_longitude','mrityu_str':'mrityu_longitude','artha_str':'artha_praharaka_longitude','yama_str':'yama_ghantaka_longitude',
'gulika_str':'gulika_longitude','maandi_str':'maandi_longitude'}
sub_planet_list_2 = ['dhuma','vyatipaata','parivesha','indrachaapa','upaketu']
place = panchanga.Place(self.place_name,self.latitude,self.longitude,self.timezone_offset)
for sp,sp_func in sub_planet_list_1.items():
k = cal_key_list['raasi_str']+'-'+cal_key_list[sp]
v = eval('panchanga.'+sp_func+'(dob,bt,place,dhasa_varga_factor=1,as_string='+str(as_string)+')')
horoscope_info[k]=v
for sp in sub_planet_list_2:
k = cal_key_list['raasi_str']+'-'+cal_key_list[sp+'_str']
v = eval('panchanga.'+'solar_upagraha_longitudes(jd,sp,dhasa_varga_factor=1,as_string='+str(as_string)+')')
horoscope_info[k]=v
## Dhasavarga Charts
ascendant_longitude = panchanga.ascendant(jd,place,as_string=False)[1]
for dhasavarga_factor in dhasavarga_dict.keys():
ascendant_navamsa = panchanga.dasavarga_from_long(ascendant_longitude,dhasavarga_factor)
if as_string:
asc_house = ascendant_navamsa[0]
chart_counter += 1
horoscope_charts[chart_counter][asc_house] += cal_key_list['ascendant_str'] +"\n"
else:
asc_house = ascendant_navamsa[0]
chart_counter += 1
horoscope_charts[chart_counter][asc_house] += cal_key_list['ascendant_str'] +"\n"
key = dhasavarga_dict[dhasavarga_factor] +'-'+cal_key_list['bhava_lagna_str']
value = panchanga.bhava_lagna(jd,place,tob,dhasavarga_factor,as_string=True)
horoscope_info[key] = value
key = dhasavarga_dict[dhasavarga_factor] +'-'+cal_key_list['hora_lagna_str']
value = panchanga.hora_lagna(jd,place,tob,dhasavarga_factor,as_string=True)
horoscope_info[key] = value
key = dhasavarga_dict[dhasavarga_factor] +'-'+cal_key_list['ghati_lagna_str']
value = panchanga.ghati_lagna(jd,place,tob,dhasavarga_factor,as_string=True)
horoscope_info[key] = value
key = dhasavarga_dict[dhasavarga_factor] +'-'+cal_key_list['sree_lagna_str']
value = panchanga.sree_lagna(jd,place,dhasavarga_factor,as_string=True)
horoscope_info[key] = value
horoscope_info[dhasavarga_dict[dhasavarga_factor] +'-'+cal_key_list['ascendant_str']] = \
RAASI_LIST[ascendant_navamsa[0]]+' '+panchanga.to_dms(ascendant_navamsa[1],True,'plong')
planet_positions = panchanga.dhasavarga(jd,place,dhasavarga_factor,as_string)
for sublist in planet_positions:
#print('sublist',sublist)
if as_string:
planet_name = sublist[0]
k = dhasavarga_dict[dhasavarga_factor]+'-'+planet_name
v = sublist[1]
planet_house = RAASI_LIST.index(v.split()[0])
horoscope_charts[chart_counter][planet_house] += planet_name +'\n'
relative_planet_house = panchanga.get_relative_house_of_planet(asc_house, planet_house)
horoscope_info[k]=v+'-House #'+str(relative_planet_house)
else:
planet_name = PLANET_NAMES[sublist[0]]
k = dhasavarga_dict[dhasavarga_factor]+'-'+planet_name
v = sublist[:]
#print('k',k,'v',v)
planet_house = sublist[1]
horoscope_charts[chart_counter][planet_house] += planet_name +'\n'
relative_planet_house = panchanga.get_relative_house_of_planet(asc_house, planet_house)
horoscope_info[k]=v + [relative_planet_house]
k = dhasavarga_dict[dhasavarga_factor]+'-'+cal_key_list['upagraha_str']
horoscope_info[k]=''
for sp,sp_func in sub_planet_list_1.items():
k = dhasavarga_dict[dhasavarga_factor]+'-'+cal_key_list[sp]
v = eval('panchanga.'+sp_func+'(dob,bt,place,dhasa_varga_factor=dhasavarga_factor,as_string='+str(as_string)+')')
horoscope_info[k]=v
for sp in sub_planet_list_2:
k = dhasavarga_dict[dhasavarga_factor]+'-'+cal_key_list[sp+'_str']
v = eval('panchanga.'+'solar_upagraha_longitudes(jd,sp,dhasa_varga_factor=dhasavarga_factor,as_string='+str(as_string)+')')
horoscope_info[k]=v
#print(horoscope_charts)
# Get Dhasa Bkukthi
jd = self.julian_day
db = panchanga.get_dhasa_bhukthi(jd,place)
dhasa_bhukti_info = {}
for i in range(len(db)):
# print(db[i])
[dhasa_lord, bukthi_lord,bukthi_start]=db[i]
dhasa_bhukti_info[panchanga.get_dhasa_name(dhasa_lord)+'-'+panchanga.get_bhukthi_name(bukthi_lord)]=bukthi_start
return horoscope_info, horoscope_charts, dhasa_bhukti_info