def stream_sun_moon_rise_data(daily_panchaanga, output_stream, time_format): jd = daily_panchaanga.julian_day_start sunrise = time.Hour( 24 * (daily_panchaanga.jd_sunrise - jd)).to_string(format=time_format) sunset = time.Hour( 24 * (daily_panchaanga.jd_sunset - jd)).to_string(format=time_format) moonrise = time.Hour( 24 * (daily_panchaanga.jd_moonrise - jd)).to_string(format=time_format) moonset = time.Hour( 24 * (daily_panchaanga.jd_moonset - jd)).to_string(format=time_format) midday = time.Hour(24 * (daily_panchaanga.jd_sunrise * 0.5 + daily_panchaanga.jd_sunset * 0.5 - jd)).to_string( format=time_format) if daily_panchaanga.jd_moonrise > daily_panchaanga.jd_next_sunrise: moonrise = '---' if daily_panchaanga.jd_moonset > daily_panchaanga.jd_next_sunrise: moonset = '---' if daily_panchaanga.jd_moonrise < daily_panchaanga.jd_moonset: print('{\\sunmoonrsdata{%s}{%s}{%s}{%s}{%s}' % (sunrise, sunset, moonrise, moonset, midday), file=output_stream) else: print('{\\sunmoonsrdata{%s}{%s}{%s}{%s}{%s}' % (sunrise, sunset, moonrise, moonset, midday), file=output_stream)
def get_yoga_data_str(daily_panchaanga, scripts, time_format): jd = daily_panchaanga.julian_day_start yoga_data_str = '' for iYoga, yoga_span in enumerate( daily_panchaanga.sunrise_day_angas.yogas_with_ends): (yoga_ID, yoga_end_jd) = (yoga_span.anga.index, yoga_span.jd_end) # if yoga_data_str != '': # yoga_data_str += '\\hspace{1ex}' yoga = names.NAMES['YOGA_NAMES']['sa'][scripts[0]][yoga_ID] if yoga_end_jd is None: if iYoga == 0: yoga_data_str = '%s\\fullanga{%s}' % (yoga_data_str, yoga) else: yoga_data_str = '%s\\uanga{%s}' % (yoga_data_str, yoga) else: yoga_data_str = '%s\\anga{%s}{\\time{%s}{%s}}\\hspace{1ex}' % \ (yoga_data_str, yoga, time.Hour(24 * (yoga_end_jd - daily_panchaanga.jd_sunrise)).to_string( format='gg-pp'), time.Hour(24 * (yoga_end_jd - jd)).to_string( format=time_format)) if yoga_end_jd is not None: yoga_data_str += '\\uanga{%s}' % ( names.NAMES['YOGA_NAMES']['sa'][scripts[0]][(yoga_ID % 27) + 1]) return yoga_data_str
def get_raahu_yama_gulika_strings(daily_panchaanga, time_format): jd = daily_panchaanga.julian_day_start rahu = '%s--%s' % ( time.Hour(24 * (daily_panchaanga.day_length_based_periods.eight_fold_division.raahu.jd_start - jd)).to_string( format=time_format), time.Hour(24 * (daily_panchaanga.day_length_based_periods.eight_fold_division.raahu.jd_end - jd)).to_string( format=time_format)) yama = '%s--%s' % ( time.Hour(24 * (daily_panchaanga.day_length_based_periods.eight_fold_division.yama.jd_start - jd)).to_string( format=time_format), time.Hour(24 * (daily_panchaanga.day_length_based_periods.eight_fold_division.yama.jd_end - jd)).to_string( format=time_format)) raatri_yama = '%s--%s' % ( time.Hour(24 * (daily_panchaanga.day_length_based_periods.eight_fold_division.raatri_yama.jd_start - jd)).to_string( format=time_format), time.Hour(24 * (daily_panchaanga.day_length_based_periods.eight_fold_division.raatri_yama.jd_end - jd)).to_string( format=time_format)) gulika = '%s--%s' % ( time.Hour(24 * (daily_panchaanga.day_length_based_periods.eight_fold_division.gulika.jd_start - jd)).to_string( format=time_format), time.Hour(24 * (daily_panchaanga.day_length_based_periods.eight_fold_division.gulika.jd_end - jd)).to_string( format=time_format)) raatri_gulika = '%s--%s' % ( time.Hour(24 * (daily_panchaanga.day_length_based_periods.eight_fold_division.raatri_gulika.jd_start - jd)).to_string( format=time_format), time.Hour(24 * (daily_panchaanga.day_length_based_periods.eight_fold_division.raatri_gulika.jd_end - jd)).to_string( format=time_format)) return gulika, rahu, yama, raatri_gulika, raatri_yama
def get_lagna_data_str(daily_panchaanga, scripts, time_format): jd = daily_panchaanga.julian_day_start lagna_data_str = jyotisha.custom_transliteration.tr('lagnAni—', scripts[0]) for lagna_ID, lagna_end_jd in daily_panchaanga.lagna_data: lagna = names.NAMES['RASHI_NAMES']['sa'][scripts[0]][lagna_ID] lagna_data_str = '%s\\lagna{%s}{%s} ' % \ (lagna_data_str, lagna, time.Hour(24 * (lagna_end_jd - jd)).to_string( format=time_format)) return lagna_data_str
def get_karaNa_data_str(daily_panchaanga, scripts, time_format): jd = daily_panchaanga.julian_day_start karana_data_str = '' for numKaranam, karaNa_span in enumerate(daily_panchaanga.sunrise_day_angas.karanas_with_ends): (karana_ID, karana_end_jd) = (karaNa_span.anga.index, karaNa_span.jd_end) # if numKaranam == 1: # karana_data_str += '\\hspace{1ex}' karana = names.NAMES['KARANA_NAMES']['sa'][scripts[0]][karana_ID] if karana_end_jd is None: karana_data_str = '%s\\uanga{%s}' % \ (karana_data_str, karana) else: karana_data_str = '%s\\anga{%s}{\\time{%s}{%s}}\\hspace{1ex}' % \ (karana_data_str, karana, time.Hour( 24 * (karana_end_jd - daily_panchaanga.jd_sunrise)).to_string(format='gg-pp'), time.Hour(24 * (karana_end_jd - jd)).to_string( format=time_format)) return karana_data_str
def get_nakshatra_data_str(daily_panchaanga, scripts, time_format): jd = daily_panchaanga.julian_day_start nakshatra_data_str = '' for iNakshatra, nakshatra_span in enumerate(daily_panchaanga.sunrise_day_angas.nakshatras_with_ends): (nakshatra_ID, nakshatra_end_jd) = (nakshatra_span.anga.index, nakshatra_span.jd_end) if nakshatra_data_str != '': nakshatra_data_str += '\\hspace{1ex}' nakshatra = names.NAMES['NAKSHATRA_NAMES']['sa'][scripts[0]][nakshatra_ID] if nakshatra_end_jd is None: if iNakshatra == 0: nakshatra_data_str = '%s\\fullanga{%s}' % (nakshatra_data_str, nakshatra) else: nakshatra_data_str = '%s\\anga{%s}{\\time{%s}{%s}}' % \ (nakshatra_data_str, nakshatra, time.Hour( 24 * (nakshatra_end_jd - daily_panchaanga.jd_sunrise)).to_string(format='gg-pp'), time.Hour(24 * (nakshatra_end_jd - jd)).to_string( format=time_format)) return nakshatra_data_str
def get_tithi_data_str(daily_panchaanga, scripts, time_format): # What is the jd at 00:00 local time today? jd = daily_panchaanga.julian_day_start tithi_data_str = '' for iTithi, tithi_span in enumerate(daily_panchaanga.sunrise_day_angas.tithis_with_ends): (tithi_ID, tithi_end_jd) = (tithi_span.anga.index, tithi_span.jd_end) tithi = '\\tithi{%d}{%s}' % (tithi_ID, names.NAMES['TITHI_NAMES']['sa'][scripts[0]][tithi_ID]) if tithi_end_jd is None: if iTithi == 0: tithi_data_str = '%s\\fulltithi{%s}' % (tithi_data_str, tithi) else: tithi_data_str = '%s\\anga{%s}{\\time{%s}{%s}}\\hspace{1ex}' % \ (tithi_data_str, tithi, time.Hour( 24 * (tithi_end_jd - daily_panchaanga.jd_sunrise)).to_string(format='gg-pp'), time.Hour(24 * (tithi_end_jd - jd)).to_string( format=time_format)) if iTithi == 2: tithi_data_str += '\\avamA{}' return tithi_data_str
def get_raashi_data_str(daily_panchaanga, scripts, time_format): jd = daily_panchaanga.julian_day_start rashi_data_str = custom_transliteration.tr('candrarAziH—', scripts[0]) for iRaashi, raashi_span in enumerate(daily_panchaanga.sunrise_day_angas.raashis_with_ends): if iRaashi == 0: (rashi_ID, rashi_end_jd) = (raashi_span.anga.index, raashi_span.jd_end) # if rashi_data_str != '': # rashi_data_str += '\\hspace{1ex}' rashi = names.NAMES['RASHI_NAMES']['sa'][scripts[0]][rashi_ID] if rashi_end_jd is None: rashi_data_str = '%s\\mbox{%s}' % (rashi_data_str, rashi) else: rashi_data_str = '%s\\mbox{%s\\RIGHTarrow{%s}}' % \ (rashi_data_str, rashi, time.Hour(24 * (rashi_end_jd - jd)).to_string( format=time_format)) return rashi_data_str
def emit(panchaanga, time_format="hh:mm", languages=None, scripts=None, output_stream=None): """Write out the panchaanga TeX using a specified template """ # day_colours = {0: 'blue', 1: 'blue', 2: 'blue', # 3: 'blue', 4: 'blue', 5: 'blue', 6: 'blue'} compute_lagnams = panchaanga.computation_system.festival_options.set_lagnas if scripts is None: scripts = [sanscript.DEVANAGARI] if languages is None: languages = ["sa"] template_file = open( os.path.join(os.path.dirname(__file__), 'templates/daily_cal_template.tex')) template_lines = template_file.readlines() for i in range(len(template_lines)): print(template_lines[i][:-1], file=output_stream) year = panchaanga.start_date.year logging.debug(year) samvatsara_id = (year - 1568) % 60 + 1 # distance from prabhava samvatsara_names = ( names.NAMES['SAMVATSARA_NAMES']['sa'][scripts[0]][samvatsara_id], names.NAMES['SAMVATSARA_NAMES']['sa'][scripts[0]][(samvatsara_id % 60) + 1]) yname = samvatsara_names[0] # Assign year name until Mesha Sankranti set_top_content(output_stream, panchaanga, samvatsara_names, scripts, year) daily_panchaangas = panchaanga.daily_panchaangas_sorted() for d, daily_panchaanga in enumerate(daily_panchaangas): if daily_panchaanga.date < panchaanga.start_date or daily_panchaanga.date > panchaanga.end_date: continue [y, m, dt] = [ daily_panchaanga.date.year, daily_panchaanga.date.month, daily_panchaanga.date.day ] # checking @ 6am local - can we do any better? local_time = tz(panchaanga.city.timezone).localize( datetime(y, m, dt, 6, 0, 0)) # compute offset from UTC in hours tz_off = (datetime.utcoffset(local_time).days * 86400 + datetime.utcoffset(local_time).seconds) / 3600.0 tithi_data_str = get_tithi_data_str(daily_panchaanga, scripts, time_format) nakshatra_data_str = get_nakshatra_data_str(daily_panchaanga, scripts, time_format) rashi_data_str = get_raashi_data_str(daily_panchaanga, scripts, time_format) lagna_data_str = get_lagna_data_str( daily_panchaanga, scripts, time_format) if compute_lagnams else '' yoga_data_str = get_yoga_data_str(daily_panchaanga, scripts, time_format) karana_data_str = get_karaNa_data_str(daily_panchaanga, scripts, time_format) gulika, rahu, yama, raatri_gulika, raatri_yama = get_raahu_yama_gulika_strings( daily_panchaanga, time_format) if daily_panchaanga.solar_sidereal_date_sunset.month == 1: # Flip the year name for the remaining days yname = samvatsara_names[1] # Assign samvatsara, ayana, rtu # sar_data = '{%s}{%s}{%s}' % (yname, names.NAMES['AYANA_NAMES']['sa'][ scripts[0]][daily_panchaanga.solar_sidereal_date_sunset. month], names.NAMES['RTU_NAMES']['sa'][scripts[0]][ daily_panchaanga.solar_sidereal_date_sunset.month]) if daily_panchaanga.solar_sidereal_date_sunset.month_transition is None: month_end_str = '' else: _m = daily_panchaangas[d - 1].solar_sidereal_date_sunset.month if daily_panchaanga.solar_sidereal_date_sunset.month_transition >= daily_panchaangas[ d + 1].jd_sunrise: month_end_str = '\\mbox{%s{\\tiny\\RIGHTarrow}{%s}}' % ( names.NAMES['RASHI_NAMES']['sa'][scripts[0]][_m], time.Hour( 24 * (daily_panchaanga.solar_sidereal_date_sunset. month_transition - daily_panchaangas[d + 1].julian_day_start)).to_string( format=time_format)) else: month_end_str = '\\mbox{%s{\\tiny\\RIGHTarrow}{%s}}' % ( names.NAMES['RASHI_NAMES']['sa'][scripts[0]][_m], time.Hour(24 * (daily_panchaanga.solar_sidereal_date_sunset. month_transition - daily_panchaanga.julian_day_start)).to_string( format=time_format)) month_data = '\\sunmonth{%s}{%d}{%s}' % ( names.NAMES['RASHI_NAMES']['sa'][scripts[0]][ daily_panchaanga.solar_sidereal_date_sunset.month], daily_panchaanga.solar_sidereal_date_sunset.day, month_end_str) print('\\caldata{%s}{%s}{%s{%s}{%s}{%s}%s}' % (names.month_map[m].upper(), dt, month_data, names.get_chandra_masa( daily_panchaanga.lunar_month_sunrise.index, scripts[0]), names.NAMES['RTU_NAMES']['sa'][scripts[0]][int( ceil(daily_panchaanga.lunar_month_sunrise.index))], names.NAMES['VARA_NAMES']['sa'][scripts[0]][ daily_panchaanga.date.get_weekday()], sar_data), file=output_stream) stream_sun_moon_rise_data(daily_panchaanga, output_stream, time_format) stream_daylength_based_periods(daily_panchaanga, output_stream, time_format) print('{\\tnykdata{%s}%%\n{%s}{%s}%%\n{%s}%%\n{%s}{%s}\n}' % (tithi_data_str, nakshatra_data_str, rashi_data_str, yoga_data_str, karana_data_str, lagna_data_str), file=output_stream) print_festivals_to_stream(daily_panchaanga, output_stream, panchaanga, languages, scripts) print('{%s} ' % names.weekday_short_map[daily_panchaanga.date.get_weekday()], file=output_stream) print('\\cfoot{\\rygdata{%s}{%s}{%s}}' % (rahu, yama, gulika), file=output_stream) if m == 12 and dt == 31: break print('\\end{document}', file=output_stream)
def stream_daylength_based_periods(daily_panchaanga, output_stream, time_format): jd = daily_panchaanga.julian_day_start braahma_start = time.Hour( 24 * (daily_panchaanga.day_length_based_periods.fifteen_fold_division. braahma.jd_start - jd)).to_string(format=time_format) praatahsandhya_start = time.Hour( 24 * (daily_panchaanga.day_length_based_periods.fifteen_fold_division. praatas_sandhyaa.jd_start - jd)).to_string(format=time_format) praatahsandhya_end = time.Hour( 24 * (daily_panchaanga.day_length_based_periods.fifteen_fold_division. praatas_sandhyaa.jd_end - jd)).to_string(format=time_format) saangava = time.Hour( 24 * (daily_panchaanga.day_length_based_periods.fifteen_fold_division. saangava.jd_start - jd)).to_string(format=time_format) madhyaahna = time.Hour( 24 * (daily_panchaanga.day_length_based_periods.fifteen_fold_division. madhyaahna.jd_start - jd)).to_string(format=time_format) madhyahnika_sandhya_start = time.Hour( 24 * (daily_panchaanga.day_length_based_periods.fifteen_fold_division. maadhyaahnika_sandhyaa.jd_start - jd)).to_string(format=time_format) madhyahnika_sandhya_end = time.Hour( 24 * (daily_panchaanga.day_length_based_periods.fifteen_fold_division. maadhyaahnika_sandhyaa.jd_end - jd)).to_string(format=time_format) aparaahna = time.Hour( 24 * (daily_panchaanga.day_length_based_periods.fifteen_fold_division. aparaahna.jd_start - jd)).to_string(format=time_format) sayahna = time.Hour( 24 * (daily_panchaanga.day_length_based_periods.fifteen_fold_division. saayaahna.jd_start - jd)).to_string(format=time_format) sayamsandhya_start = time.Hour( 24 * (daily_panchaanga.day_length_based_periods.fifteen_fold_division. saayam_sandhyaa.jd_start - jd)).to_string(format=time_format) sayamsandhya_end = time.Hour( 24 * (daily_panchaanga.day_length_based_periods.fifteen_fold_division. pradosha.jd_end - jd)).to_string(format=time_format) ratriyama1 = time.Hour( 24 * (daily_panchaanga.day_length_based_periods.eight_fold_division. raatri_yaama[0].jd_end - jd)).to_string(format=time_format) shayana_time_end = time.Hour( 24 * (daily_panchaanga.day_length_based_periods.eight_fold_division. shayana.jd_start - jd)).to_string(format=time_format) dinaanta = time.Hour( 24 * (daily_panchaanga.day_length_based_periods.eight_fold_division. dinaanta.jd_start - jd)).to_string(format=time_format) print('{\\kalas{%s %s %s %s %s %s %s %s %s %s %s %s %s %s}}}' % (braahma_start, praatahsandhya_start, praatahsandhya_end, saangava, madhyahnika_sandhya_start, madhyahnika_sandhya_end, madhyaahna, aparaahna, sayahna, sayamsandhya_start, sayamsandhya_end, ratriyama1, shayana_time_end, dinaanta), file=output_stream)
def emit(panchaanga, time_format="hh:mm", scripts=None, output_stream=None): """Write out the panchaanga TeX using a specified template """ # day_colours = {0: 'blue', 1: 'blue', 2: 'blue', # 3: 'blue', 4: 'blue', 5: 'blue', 6: 'blue'} compute_lagnams = panchaanga.computation_system.options.set_lagnas if scripts is None: scripts = [sanscript.DEVANAGARI] month = {1: 'JANUARY', 2: 'FEBRUARY', 3: 'MARCH', 4: 'APRIL', 5: 'MAY', 6: 'JUNE', 7: 'JULY', 8: 'AUGUST', 9: 'SEPTEMBER', 10: 'OCTOBER', 11: 'NOVEMBER', 12: 'DECEMBER'} WDAY = {0: 'Sun', 1: 'Mon', 2: 'Tue', 3: 'Wed', 4: 'Thu', 5: 'Fri', 6: 'Sat'} template_file = open(os.path.join(os.path.dirname(__file__), 'templates/daily_cal_template.tex')) template_lines = template_file.readlines() for i in range(len(template_lines)): print(template_lines[i][:-1], file=output_stream) year = panchaanga.start_date.year logging.debug(year) samvatsara_id = (year - 1568) % 60 + 1 # distance from prabhava samvatsara_names = (jyotisha.names.NAMES['SAMVATSARA_NAMES'][scripts[0]][samvatsara_id], jyotisha.names.NAMES['SAMVATSARA_NAMES'][scripts[0]][(samvatsara_id % 60) + 1]) yname = samvatsara_names[0] # Assign year name until Mesha Sankranti print('\\mbox{}', file=output_stream) print('\\renewcommand{\\yearname}{%d}' % year, file=output_stream) print('\\begin{center}', file=output_stream) print('{\\sffamily \\fontsize{80}{80}\\selectfont %d\\\\[0.5cm]}' % year, file=output_stream) print('\\mbox{\\fontsize{48}{48}\\selectfont %s–%s}\\\\' % samvatsara_names, file=output_stream) print('\\mbox{\\fontsize{32}{32}\\selectfont %s } %%' % jyotisha.custom_transliteration.tr('kali', scripts[0]), file=output_stream) print('{\\sffamily \\fontsize{43}{43}\\selectfont %d–%d\\\\[0.5cm]}\n\\hrule\n\\vspace{0.2cm}' % (year + 3100, year + 3101), file=output_stream) print('{\\sffamily \\fontsize{50}{50}\\selectfont \\uppercase{%s}\\\\[0.2cm]}' % panchaanga.city.name, file=output_stream) print('{\\sffamily \\fontsize{23}{23}\\selectfont {%s}\\\\[0.2cm]}' % jyotisha.custom_transliteration.print_lat_lon(panchaanga.city.latitude, panchaanga.city.longitude), file=output_stream) print('\\hrule', file=output_stream) print('\\end{center}', file=output_stream) print('\\clearpage\\pagestyle{fancy}', file=output_stream) daily_panchaangas = panchaanga.daily_panchaangas_sorted() for d, daily_panchaanga in enumerate(daily_panchaangas): if daily_panchaanga.date < panchaanga.start_date or daily_panchaanga.date > panchaanga.end_date: continue [y, m, dt] = [daily_panchaanga.date.year, daily_panchaanga.date.month, daily_panchaanga.date.day] # checking @ 6am local - can we do any better? local_time = tz(panchaanga.city.timezone).localize(datetime(y, m, dt, 6, 0, 0)) # compute offset from UTC in hours tz_off = (datetime.utcoffset(local_time).days * 86400 + datetime.utcoffset(local_time).seconds) / 3600.0 # What is the jd at 00:00 local time today? jd = daily_panchaanga.julian_day_start tithi_data_str = '' for iTithi, tithi_span in enumerate(daily_panchaanga.sunrise_day_angas.tithis_with_ends): (tithi_ID, tithi_end_jd) = (tithi_span.anga.index, tithi_span.jd_end) # if tithi_data_str != '': # tithi_data_str += '\\hspace{1ex}' tithi = '\\raisebox{-1pt}{\\moon[scale=0.8]{%d}}\\hspace{2pt}' % (tithi_ID) + \ jyotisha.names.NAMES['TITHI_NAMES'][scripts[0]][tithi_ID] if tithi_end_jd is None: if iTithi == 0: tithi_data_str = '%s\\mbox{%s\\To{}%s}' % \ (tithi_data_str, tithi, jyotisha.custom_transliteration.tr('ahOrAtram (tridinaspRk)', scripts[0])) else: tithi_data_str = '%s\\mbox{%s\\To{}\\textsf{%s (%s)}}\\hspace{1ex}' % \ (tithi_data_str, tithi, time.Hour( 24 * (tithi_end_jd - daily_panchaanga.jd_sunrise)).toString(format='gg-pp'), time.Hour(24 * (tithi_end_jd - jd)).toString( format=time_format)) nakshatra_data_str = '' for iNakshatra, nakshatra_span in enumerate(daily_panchaanga.sunrise_day_angas.nakshatras_with_ends): (nakshatra_ID, nakshatra_end_jd) = (nakshatra_span.anga.index, nakshatra_span.jd_end) if nakshatra_data_str != '': nakshatra_data_str += '\\hspace{1ex}' nakshatra = jyotisha.names.NAMES['NAKSHATRA_NAMES'][scripts[0]][nakshatra_ID] if nakshatra_end_jd is None: if iNakshatra == 0: nakshatra_data_str = '%s\\mbox{%s\\To{}%s}' % \ (nakshatra_data_str, nakshatra, jyotisha.custom_transliteration.tr('ahOrAtram', scripts[0])) else: nakshatra_data_str = '%s\\mbox{%s\\To{}\\textsf{%s (%s)}}' % \ (nakshatra_data_str, nakshatra, time.Hour( 24 * (nakshatra_end_jd - daily_panchaanga.jd_sunrise)).toString(format='gg-pp'), time.Hour(24 * (nakshatra_end_jd - jd)).toString( format=time_format)) rashi_data_str = '' for iRaashi, raashi_span in enumerate(daily_panchaanga.sunrise_day_angas.raashis_with_ends): if iRaashi == 0: (rashi_ID, rashi_end_jd) = (raashi_span.anga.index, raashi_span.jd_end) # if rashi_data_str != '': # rashi_data_str += '\\hspace{1ex}' rashi = jyotisha.names.NAMES['RASHI_SUFFIXED_NAMES'][scripts[0]][rashi_ID] if rashi_end_jd is None: rashi_data_str = '%s\\mbox{%s}' % (rashi_data_str, rashi) else: rashi_data_str = '%s\\mbox{%s \\RIGHTarrow \\textsf{%s}}' % \ (rashi_data_str, rashi, time.Hour(24 * (rashi_end_jd - jd)).toString( format=time_format)) if compute_lagnams: lagna_data_str = 'लग्नम्–' for lagna_ID, lagna_end_jd in daily_panchaanga.lagna_data: lagna = jyotisha.names.NAMES['RASHI_NAMES'][scripts[0]][lagna_ID] lagna_data_str = '%s\\mbox{%s\\RIGHTarrow\\textsf{%s}} ' % \ (lagna_data_str, lagna, time.Hour(24 * (lagna_end_jd - jd)).toString( format=time_format)) yoga_data_str = '' for iYoga, yoga_span in enumerate(daily_panchaanga.sunrise_day_angas.yogas_with_ends): (yoga_ID, yoga_end_jd) = (yoga_span.anga.index, yoga_span.jd_end) # if yoga_data_str != '': # yoga_data_str += '\\hspace{1ex}' yoga = jyotisha.names.NAMES['YOGA_NAMES'][scripts[0]][yoga_ID] if yoga_end_jd is None: if iYoga == 0: yoga_data_str = '%s\\mbox{%s\\To{}%s}' % \ (yoga_data_str, yoga, jyotisha.custom_transliteration.tr('ahOrAtram', scripts[0])) else: yoga_data_str = '%s\\mbox{%s\\Too{}}' % \ (yoga_data_str, yoga) else: yoga_data_str = '%s\\mbox{%s\\To{}\\textsf{%s (%s)}}\\hspace{1ex}' % \ (yoga_data_str, yoga, time.Hour(24 * (yoga_end_jd - daily_panchaanga.jd_sunrise)).toString( format='gg-pp'), time.Hour(24 * (yoga_end_jd - jd)).toString( format=time_format)) if yoga_end_jd is not None: yoga_data_str += '\\mbox{%s\\Too{}}' % ( jyotisha.names.NAMES['YOGA_NAMES'][scripts[0]][(yoga_ID % 27) + 1]) karana_data_str = '' for numKaranam, karaNa_span in enumerate(daily_panchaanga.sunrise_day_angas.karanas_with_ends): (karana_ID, karana_end_jd) = (karaNa_span.anga.index, karaNa_span.jd_end) # if numKaranam == 1: # karana_data_str += '\\hspace{1ex}' karana = jyotisha.names.NAMES['KARANA_NAMES'][scripts[0]][karana_ID] if karana_end_jd is None: karana_data_str = '%s\\mbox{%s\\Too{}}' % \ (karana_data_str, karana) else: karana_data_str = '%s\\mbox{%s\\To{}\\textsf{%s (%s)}}\\hspace{1ex}' % \ (karana_data_str, karana, time.Hour( 24 * (karana_end_jd - daily_panchaanga.jd_sunrise)).toString(format='gg-pp'), time.Hour(24 * (karana_end_jd - jd)).toString( format=time_format)) sunrise = time.Hour(24 * (daily_panchaanga.jd_sunrise - jd)).toString( format=time_format) sunset = time.Hour(24 * (daily_panchaanga.jd_sunset - jd)).toString(format=time_format) moonrise = time.Hour(24 * (daily_panchaanga.jd_moonrise - jd)).toString( format=time_format) moonset = time.Hour(24 * (daily_panchaanga.jd_moonset - jd)).toString( format=time_format) braahma_start = time.Hour(24 * (daily_panchaanga.day_length_based_periods.braahma.jd_start - jd)).toString( format=time_format) praatahsandhya_start = time.Hour( 24 * (daily_panchaanga.day_length_based_periods.praatas_sandhyaa.jd_start - jd)).toString(format=time_format) praatahsandhya_end = time.Hour( 24 * (daily_panchaanga.day_length_based_periods.praatas_sandhyaa_end.jd_start - jd)).toString(format=time_format) saangava = time.Hour(24 * (daily_panchaanga.day_length_based_periods.saangava.jd_start - jd)).toString( format=time_format) madhyaahna = time.Hour(24 * (daily_panchaanga.day_length_based_periods.madhyaahna.jd_start - jd)).toString( format=time_format) madhyahnika_sandhya_start = time.Hour( 24 * (daily_panchaanga.day_length_based_periods.maadhyaahnika_sandhyaa.jd_start - jd)).toString(format=time_format) madhyahnika_sandhya_end = time.Hour( 24 * (daily_panchaanga.day_length_based_periods.maadhyaahnika_sandhyaa_end.jd_start - jd)).toString(format=time_format) aparaahna_muhuurta = time.Hour(24 * (daily_panchaanga.day_length_based_periods.aparaahna_muhuurta.jd_start - jd)).toString( format=time_format) sayahna = time.Hour(24 * (daily_panchaanga.day_length_based_periods.saayaahna.jd_start - jd)).toString( format=time_format) sayamsandhya_start = time.Hour( 24 * (daily_panchaanga.day_length_based_periods.saayam_sandhyaa.jd_start - jd)).toString(format=time_format) sayamsandhya_end = time.Hour( 24 * (daily_panchaanga.day_length_based_periods.pradosha.jd_end - jd)).toString(format=time_format) ratriyama1 = time.Hour(24 * (daily_panchaanga.day_length_based_periods.raatri_yaama_1.jd_start - jd)).toString( format=time_format) shayana_time_end = time.Hour(24 * (daily_panchaanga.day_length_based_periods.shayana.jd_start - jd)).toString( format=time_format) dinaanta = time.Hour(24 * (daily_panchaanga.day_length_based_periods.dinaanta.jd_start - jd)).toString( format=time_format) rahu = '%s--%s' % ( time.Hour(24 * (daily_panchaanga.day_length_based_periods.raahu.jd_start - jd)).toString( format=time_format), time.Hour(24 * (daily_panchaanga.day_length_based_periods.raahu.jd_end - jd)).toString( format=time_format)) yama = '%s--%s' % ( time.Hour(24 * (daily_panchaanga.day_length_based_periods.yama.jd_start - jd)).toString( format=time_format), time.Hour(24 * (daily_panchaanga.day_length_based_periods.yama.jd_end - jd)).toString( format=time_format)) gulika = '%s--%s' % ( time.Hour(24 * (daily_panchaanga.day_length_based_periods.gulika.jd_start - jd)).toString( format=time_format), time.Hour(24 * (daily_panchaanga.day_length_based_periods.gulika.jd_end - jd)).toString( format=time_format)) if daily_panchaanga.solar_sidereal_date_sunset.month == 1: # Flip the year name for the remaining days yname = samvatsara_names[1] # Assign samvatsara, ayana, rtu # sar_data = '{%s}{%s}{%s}' % (yname, jyotisha.names.NAMES['AYANA_NAMES'][scripts[0]][daily_panchaanga.solar_sidereal_date_sunset.month], jyotisha.names.NAMES['RTU_NAMES'][scripts[0]][daily_panchaanga.solar_sidereal_date_sunset.month]) if daily_panchaanga.solar_sidereal_date_sunset.month_transition is None: month_end_str = '' else: _m = daily_panchaangas[d - 1].solar_sidereal_date_sunset.month if daily_panchaanga.solar_sidereal_date_sunset.month_transition >= daily_panchaangas[d + 1].jd_sunrise: month_end_str = '\\mbox{%s{\\tiny\\RIGHTarrow}\\textsf{%s}}' % ( jyotisha.names.NAMES['RASHI_NAMES'][scripts[0]][_m], time.Hour( 24 * (daily_panchaanga.solar_sidereal_date_sunset.month_transition - daily_panchaangas[d + 1].julian_day_start)).toString(format=time_format)) else: month_end_str = '\\mbox{%s{\\tiny\\RIGHTarrow}\\textsf{%s}}' % ( jyotisha.names.NAMES['RASHI_NAMES'][scripts[0]][_m], time.Hour( 24 * (daily_panchaanga.solar_sidereal_date_sunset.month_transition - daily_panchaanga.julian_day_start)).toString(format=time_format)) month_data = '\\sunmonth{%s}{%d}{%s}' % ( jyotisha.names.NAMES['RASHI_NAMES'][scripts[0]][daily_panchaanga.solar_sidereal_date_sunset.month], daily_panchaanga.solar_sidereal_date_sunset.day, month_end_str) print('\\caldata{%s}{%s}{%s{%s}{%s}{%s}%s}' % (month[m], dt, month_data, jyotisha.names.get_chandra_masa(daily_panchaanga.lunar_month_sunrise.index, jyotisha.names.NAMES, scripts[0]), jyotisha.names.NAMES['RTU_NAMES'][scripts[0]][int(ceil(daily_panchaanga.lunar_month_sunrise.index))], jyotisha.names.NAMES['VARA_NAMES'][scripts[0]][daily_panchaanga.date.get_weekday()], sar_data), file=output_stream) if daily_panchaanga.jd_moonrise > daily_panchaangas[d + 1].jd_sunrise: moonrise = '---' if daily_panchaanga.jd_moonset > daily_panchaangas[d + 1].jd_sunrise: moonset = '---' if daily_panchaanga.jd_moonrise < daily_panchaanga.jd_moonset: print('{\\sunmoonrsdata{%s}{%s}{%s}{%s}' % (sunrise, sunset, moonrise, moonset), file=output_stream) else: print('{\\sunmoonsrdata{%s}{%s}{%s}{%s}' % (sunrise, sunset, moonrise, moonset), file=output_stream) print( '{\\kalas{%s %s %s %s %s %s %s %s %s %s %s %s %s %s}}}' % (braahma_start, praatahsandhya_start, praatahsandhya_end, saangava, madhyahnika_sandhya_start, madhyahnika_sandhya_end, madhyaahna, aparaahna_muhuurta, sayahna, sayamsandhya_start, sayamsandhya_end, ratriyama1, shayana_time_end, dinaanta), file=output_stream) if compute_lagnams: print('{\\tnykdata{%s}%%\n{%s}{%s}%%\n{%s}%%\n{%s}{%s}\n}' % (tithi_data_str, nakshatra_data_str, rashi_data_str, yoga_data_str, karana_data_str, lagna_data_str), file=output_stream) else: print('{\\tnykdata{%s}%%\n{%s}{%s}%%\n{%s}%%\n{%s}{\\scriptsize %s}\n}' % (tithi_data_str, nakshatra_data_str, rashi_data_str, yoga_data_str, karana_data_str, ''), file=output_stream) rules_collection = rules.RulesCollection.get_cached( repos_tuple=tuple(panchaanga.computation_system.options.fest_repos)) fest_details_dict = rules_collection.name_to_rule # Using set as an ugly workaround since we may have sometimes assigned the same # festival to the same day again! print('{%s}' % '\\eventsep '.join( [f.tex_code(scripts=scripts, timezone=Timezone(timezone_id=panchaanga.city.timezone), fest_details_dict=fest_details_dict) for f in sorted(daily_panchaanga.festival_id_to_instance.values())]), file=output_stream) print('{%s} ' % WDAY[daily_panchaanga.date.get_weekday()], file=output_stream) print('\\cfoot{\\rygdata{%s}{%s}{%s}}' % (rahu, yama, gulika), file=output_stream) if m == 12 and dt == 31: break print('\\end{document}', file=output_stream)