Exemplo n.º 1
0
def solarEclipseGlobal(jd, backward):
    """ Returns the jd details of previous or next global solar eclipse. """

    sweList = swisseph.sol_eclipse_when_glob(jd, backward=backward)
    return {
        'maximum': sweList[1][0],
        'begin': sweList[1][2],
        'end': sweList[1][3],
        'totality_begin': sweList[1][4],
        'totality_end': sweList[1][5],
        'center_line_begin': sweList[1][6],
        'center_line_end': sweList[1][7],
    }
Exemplo n.º 2
0
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))
Exemplo n.º 3
0
    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))


print 'Next Solar Eclipse global'
print '------------------------'
now = swe.julday(2017, 8, 1)
time_zone = -0  # we have to look up time zone from lat/long

for i in range(1):
    res_global = swe.sol_eclipse_when_glob(now)
    print 'global', res_global
    t_start = res_global[1][0]
    lat_long = swe.sol_eclipse_where(t_start)
    print 'where', lat_long
    longitude = lat_long[1][0]
    latitude = lat_long[1][1]
    res_how = swe.sol_eclipse_how(res_global[1][0], longitude, latitude)
    print 'how', res_how
    ecl_central = True
    ecl_central_mask = int('00000001', 2)
    ecl_type = res_how[0][0] & ecl_central_mask
    if ecl_type == 1:
        ecl_central = True
        print 'Eclipse Central'
    ecl_noncentral_mask = int('00000010', 2)
Exemplo n.º 4
0
def solar(time_zone, year, month, day, location_latitude, location_longitude):
    solaar = {}
    now = swe.julday(year, month, day)
    for i in range(1):
        res_global = swe.sol_eclipse_when_glob(now)
        #print 'global', res_global
        t_start = res_global[1][0]
        lat_long = swe.sol_eclipse_where(t_start)
        #print 'where', lat_long
        longitude = lat_long[1][0]
        latitude = lat_long[1][1]
        res_how = swe.sol_eclipse_how(res_global[1][0], longitude, latitude)
        #print 'how', res_how
        ecl_central = True
        ecl_central_mask = int('00000001', 2)
        ecl_type = res_how[0][0] & ecl_central_mask
        if ecl_type == 1:
            ecl_central = True
            ecl_central_or_not = 'Eclipse Central'
        ecl_noncentral_mask = int('00000010', 2)
        ecl_type = res_how[0][0] & ecl_noncentral_mask
        if ecl_type == 2:
            ecl_central = False
            ecl_central_or_not = 'Eclipse Non Central'
        eclipse_total_mask = int('00000100', 2)
        ecl_type = res_how[0][0] & eclipse_total_mask
        if ecl_type == 4:
            Type = 'Eclipse Total'
            start = (date_convert(res_global[1][2]) +
                     datetime.timedelta(hours=time_zone))
            start_totality = (date_convert(res_global[1][4]) +
                              datetime.timedelta(hours=time_zone))
            if ecl_central:
                centerline_start = (date_convert(res_global[1][6]) +
                                    datetime.timedelta(hours=time_zone))
            maxi = (date_convert(res_global[1][0]) +
                    datetime.timedelta(hours=time_zone))
            if ecl_central:
                centerline_end = (date_convert(res_global[1][7]) +
                                  datetime.timedelta(hours=time_zone))
            end_totality = (date_convert(res_global[1][5]) +
                            datetime.timedelta(hours=time_zone))
            end = (date_convert(res_global[1][3]) +
                   datetime.timedelta(hours=time_zone))
            duration = (date_convert(res_global[1][3]) -
                        date_convert(res_global[1][2]))
            #print 'Type:          ', res_global[0][0], bin(res_global[0][0])
            #print 'Type: Max place', res_how[0][0], bin(res_how[0][0])
        eclipse_annualar = int('00001000', 2)
        ecl_type = res_how[0][0] & eclipse_annualar
        if ecl_type == 8:
            Type = 'Eclipse Annular'
            ecl_start = res_global[1][0]  # res_global[1][0]
            ecl_end = res_global[1][0]
            if res_global[1][2] > 0:
                ecl_start = res_global[1][2]
                start = (date_convert(res_global[1][2]) +
                         datetime.timedelta(hours=time_zone))
            if res_global[1][4] > 0:
                start_totality = (date_convert(res_global[1][4]) +
                                  datetime.timedelta(hours=time_zone))
                if ecl_start >= res_global[1][4]:
                    ecl_start = res_global[1][4]
            if res_global[1][6] > 0:
                centerline_start = (date_convert(res_global[1][6]) +
                                    datetime.timedelta(hours=time_zone))
                if ecl_start > res_global[1][6]:
                    ecl_start = res_global[1][6]
            maxi = (date_convert(res_global[1][0]) +
                    datetime.timedelta(hours=time_zone))
            if res_global[1][7] > 0:
                centerline_end = (date_convert(res_global[1][7]) +
                                  datetime.timedelta(hours=time_zone))
                ecl_end = res_global[1][7]
            if res_global[1][5] > 0:
                end_totality = (date_convert(res_global[1][5]) +
                                datetime.timedelta(hours=time_zone))
                if ecl_end < res_global[1][5]:
                    ecl_end = res_global[1][5]
            if res_global[1][3] > 0:
                end = (date_convert(res_global[1][3]) +
                       datetime.timedelta(hours=time_zone))
                if ecl_end < res_global[1][3]:
                    ecl_end = res_global[1][3]
            #print ecl_end, ecl_start
            duration = (date_convert(ecl_end) - date_convert(ecl_start))
            #print 'Type:          ', res_global[0][0], bin(res_global[0][0])
            #print 'Type: Max place', res_how[0][0], bin(res_how[0][0])
        eclipse_partial = int('0010000', 2)
        ecl_type = res_how[0][0] & eclipse_partial
        if ecl_type == 16:
            Type = 'Eclipse Partial'
            ecl_start = res_global[1][0]  # res_global[1][0]
            ecl_end = res_global[1][0]
            if res_global[1][2] > 0:
                ecl_start = res_global[1][2]
                start = (date_convert(res_global[1][2]) +
                         datetime.timedelta(hours=time_zone))
            if res_global[1][4] > 0:
                start_totality = (date_convert(res_global[1][4]) +
                                  datetime.timedelta(hours=time_zone))
                if ecl_start >= res_global[1][4]:
                    ecl_start = res_global[1][4]
            if res_global[1][6] > 0:
                centerline_start = (date_convert(res_global[1][6]) +
                                    datetime.timedelta(hours=time_zone))
                if ecl_start > res_global[1][6]:
                    ecl_start = res_global[1][6]
            maxi = (date_convert(res_global[1][0]) +
                    datetime.timedelta(hours=time_zone))
            if res_global[1][7] > 0:
                centerline_end = (date_convert(res_global[1][7]) +
                                  datetime.timedelta(hours=time_zone))
                ecl_end = res_global[1][7]
            if res_global[1][5] > 0:
                end_totality = (date_convert(res_global[1][5]) +
                                datetime.timedelta(hours=time_zone))
                if ecl_end < res_global[1][5]:
                    ecl_end = res_global[1][5]
            if res_global[1][3] > 0:
                end = (date_convert(res_global[1][3]) +
                       datetime.timedelta(hours=time_zone))
                if ecl_end < res_global[1][3]:
                    ecl_end = res_global[1][3]
            #print ecl_end, ecl_start
            duration = (date_convert(ecl_end) - date_convert(ecl_start))
            #print 'Type:          ', res_global[0][0], bin(res_global[0][0])
            #print 'Type: Max place', res_how[0][0], bin(res_how[0][0])
        eclipse_ann_total = int('0100000', 2)
        ecl_type = res_how[0][0] & eclipse_ann_total
        if ecl_type == 32:
            Type = 'Eclipse Annular-Total'

        soros_cycle = int(lat_long[2][9])
        soros_number = int(lat_long[2][10])
        max_covered = int(lat_long[2][2] * 100)
        sun_alt = lat_long[2][5]
        sun_azm = ((lat_long[2][4] + 180) % 360)
        pos_p = swe.calc_ut(res_global[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_global[1][0], 1)
        signs = birthchart.natal_planet_signs(pos_p)
        moon_pos = pos_p[0]
        moon_zodiac = constants.SIGN_ZODIAC[signs[0]]
        #print 'Where -Latitue  :', latitude
        #print 'Where -Longitude:', longitude
        magnii = lat_long[2][1]
        now = res_global[1][0] + 30
    solar_eclipse = {
        'ecl_central_or_not': ecl_central_or_not,
        'soros_cycle': soros_cycle,
        'soros_number': soros_number,
        'max_covered': max_covered,
        'sun_alt': sun_alt,
        'sun_azm': sun_azm,
        'sun_pos': sun_pos,
        'sun_zodiac': sun_zodiac,
        'moon_pos': moon_pos,
        'moon_zodiac': moon_zodiac,
        'latii': latitude,
        'longii': longitude,
        'magnii': magnii,
        'start': str(start),
        'start_totality': start_totality,
        'centerline_start': str(centerline_start),
        'max': str(maxi),
        'centerline_end': str(centerline_end),
        'end_totality': str(end_totality),
        'end': str(end),
        'duration': str(duration),
        'Type': Type
    }

    return solar_eclipse
Exemplo n.º 5
0
def solarbypos(time_zone, year, month, day, location_latitude,
               location_longitude):  # print i
    now = swe.julday(year, month, day)
    res_global = swe.sol_eclipse_when_glob(now)
    now = res_global[1][0] - 1
    res = swe.sol_eclipse_when_loc(now, location_longitude, location_latitude)
    res_how = swe.sol_eclipse_how(res[1][0], location_longitude,
                                  location_latitude)
    #print res
    #print res_how
    ecl_central = int('00000001', 2)
    ecl_type = res_how[0][0] & ecl_central
    if ecl_type == 1:
        ecl_central_or_not = 'Eclipse Central'
    ecl_noncentral = int('00000010', 2)
    ecl_type = res_how[0][0] & ecl_noncentral
    if ecl_type == 2:
        ecl_central_or_not = 'Eclipse Non Central'
    eclipse_total = int('00000100', 2)
    ecl_type = res_how[0][0] & eclipse_total
    if ecl_type == 4:
        Type = 'Eclipse Total'
        start = date_convert(res[1][1]) + datetime.timedelta(hours=time_zone)
        print '1    ', date_convert(
            res[1][2]) + datetime.timedelta(hours=time_zone)
        maxi = date_convert(res[1][0]) + datetime.timedelta(hours=time_zone)
        print '2    ', date_convert(
            res[1][3]) + datetime.timedelta(hours=time_zone)
        end = date_convert(res[1][4]) + datetime.timedelta(hours=time_zone)
        print 'Duration', date_convert(res[1][4]) - date_convert(res[1][1])
        print 'Duration', date_convert(res[1][3]) - date_convert(res[1][2])
        print 'Type:               ', res[0][0], bin(res[0][0])
        print 'Type: in Los Angeles', res_how[0][0], bin(res_how[0][0])
    eclipse_annual = int('00001000', 2)
    ecl_type = res_how[0][0] & eclipse_annual
    if ecl_type == 8:
        Type = 'Eclipse Annual'
        start = date_convert(res[1][1]) + datetime.timedelta(hours=time_zone)
        print '1    ', date_convert(
            res[1][2]) + datetime.timedelta(hours=time_zone)
        maxi = date_convert(res[1][0]) + datetime.timedelta(hours=time_zone)
        print '2    ', date_convert(
            res[1][3]) + datetime.timedelta(hours=time_zone)
        end = date_convert(res[1][4]) + datetime.timedelta(hours=time_zone)
        print 'Duration', date_convert(res[1][4]) - date_convert(res[1][1])
        print 'Duration', date_convert(res[1][3]) - date_convert(res[1][2])
        print 'Type:   ', res[0][0], bin(res[0][0])
        print 'Type: in Los Angeles', res_how[0][0], bin(res_how[0][0])
    eclipse_partial = int('0010000', 2)
    ecl_type = res_how[0][0] & eclipse_partial
    if ecl_type == 16:
        Type = 'Eclipse Partial'
        start = date_convert(res[1][1]) + datetime.timedelta(hours=time_zone)
        # print '1    ', date_convert(res[1][2]) + datetime.timedelta(hours=time_zone)
        maxi = date_convert(res[1][0]) + datetime.timedelta(hours=time_zone)
        # print '2    ', date_convert(res[1][3]) + datetime.timedelta(hours=time_zone)
        end = date_convert(res[1][4]) + datetime.timedelta(hours=time_zone)
        print 'Duration', date_convert(res[1][4]) - date_convert(res[1][1])
        #print 'Duration', date_convert(res[1][3]) - date_convert(res[1][2])
        print 'Type:               ', res[0][0], bin(res[0][0])
    print 'Type: in Los Angeles', res_how[0][0], bin(res_how[0][0])
    eclipse_ann_total = int('0100000', 2)
    ecl_type = res_how[0][0] & eclipse_ann_total
    if ecl_type == 32:
        Type = 'Eclipse Annular-Total'
        start = date_convert(res[1][1]) + datetime.timedelta(hours=time_zone)
        print '1    ', date_convert(
            res[1][2]) + datetime.timedelta(hours=time_zone)
        maxi = date_convert(res[1][0]) + datetime.timedelta(hours=time_zone)
        print '2    ', date_convert(
            res[1][3]) + datetime.timedelta(hours=time_zone)
        end = date_convert(res[1][4]) + datetime.timedelta(hours=time_zone)
        print 'Duration', date_convert(res[1][4]) - date_convert(res[1][1])
        print 'Duration', date_convert(res[1][3]) - date_convert(res[1][2])
        print 'Type:               ', res[0][0], bin(res[0][0])
        print 'Type: in Los Angeles', res_how[0][0], bin(res_how[0][0])
    soros_cycle = int(res[2][9])
    soros_number = int(res[2][10])
    max_covered = int(res[2][2] * 100)
    sun_alt = res[2][5]
    sun_azm = ((res[2][4] + 180) % 360)
    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]]

    pos_p = swe.calc_ut(res[1][0], 0)
    #print 'Sun  position', pos_p[0]
    pos_p = swe.calc_ut(res[1][0], 1)
    #print 'Moon position', pos_p[0]

    solar_eclipse_bypos = {
        'ecl_central_or_not': ecl_central_or_not,
        'soros_cycle': soros_cycle,
        'soros_number': soros_number,
        'max_covered': max_covered,
        'sun_alt': sun_alt,
        'sun_azm': sun_azm,
        'sun_pos': sun_pos,
        'sun_zodiac': sun_zodiac,
        'moon_pos': moon_pos,
        'moon_zodiac': moon_zodiac,
        'start': str(start),
        'max': str(maxi),
        'end': str(end),
        'Type': Type
    }

    return solar_eclipse_bypos
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),
                              flag=swe.FLG_SWIEPH + swe.FLG_SPEED)
            grado = pos[0][0]
Exemplo n.º 7
0
def solar(time_zone, year, month, day, location_latitude, location_longitude):
    solaar = {}
    now = swe.julday(year, month, day)
    for i in range(1):
        res_global = swe.sol_eclipse_when_glob(now)
        #print 'global', res_global
        t_start = res_global[1][0]
        lat_long = swe.sol_eclipse_where(t_start)
        #print 'where', lat_long
        longitude = lat_long[1][0]
        latitude = lat_long[1][1]
        res_how = swe.sol_eclipse_how(res_global[1][0], longitude, latitude)
        #print 'how', res_how
        ecl_central = True
        ecl_central_mask = int('00000001', 2)
        ecl_type = res_how[0][0] & ecl_central_mask
        if ecl_type == 1:
            ecl_central = True
            ecl_central_or_not = 'Eclipse Central'
        ecl_noncentral_mask = int('00000010', 2)
        ecl_type = res_how[0][0] & ecl_noncentral_mask
        if ecl_type == 2:
            ecl_central = False
            ecl_central_or_not = 'Eclipse Non Central'
        eclipse_total_mask = int('00000100', 2)
        ecl_type = res_how[0][0] & eclipse_total_mask
        if ecl_type == 4:
            Type ='Eclipse Total'
            start = (date_convert(res_global[1][2]) + datetime.timedelta(hours=time_zone))
            start_totality = (date_convert(res_global[1][4]) + datetime.timedelta(hours=time_zone))
            if ecl_central:
                centerline_start = (date_convert(res_global[1][6]) + datetime.timedelta(hours=time_zone))
            maxi = (date_convert(res_global[1][0]) + datetime.timedelta(hours=time_zone))
            if ecl_central:
                centerline_end = (date_convert(res_global[1][7]) + datetime.timedelta(hours=time_zone))
            end_totality = (date_convert(res_global[1][5]) + datetime.timedelta(hours=time_zone))
            end = (date_convert(res_global[1][3]) + datetime.timedelta(hours=time_zone))
            duration = (date_convert(res_global[1][3]) - date_convert(res_global[1][2]))
            #print 'Type:          ', res_global[0][0], bin(res_global[0][0])
            #print 'Type: Max place', res_how[0][0], bin(res_how[0][0])
        eclipse_annualar = int('00001000', 2)
        ecl_type = res_how[0][0] & eclipse_annualar
        if ecl_type == 8:
            Type = 'Eclipse Annular'
            ecl_start = res_global[1][0]  # res_global[1][0]
            ecl_end = res_global[1][0]
            if res_global[1][2] > 0:
                ecl_start = res_global[1][2]
                start = (date_convert(res_global[1][2]) + datetime.timedelta(hours=time_zone))
            if res_global[1][4] > 0:
                start_totality = (date_convert(res_global[1][4]) + datetime.timedelta(hours=time_zone))
                if ecl_start >= res_global[1][4]:
                    ecl_start = res_global[1][4]
            if res_global[1][6] > 0:
                centerline_start = (date_convert(res_global[1][6]) + datetime.timedelta(hours=time_zone))
                if ecl_start > res_global[1][6]:
                    ecl_start = res_global[1][6]
            maxi = (date_convert(res_global[1][0]) + datetime.timedelta(hours=time_zone))
            if res_global[1][7] > 0:
                centerline_end = (date_convert(res_global[1][7]) + datetime.timedelta(hours=time_zone))
                ecl_end = res_global[1][7]
            if res_global[1][5] > 0:
                end_totality = (date_convert(res_global[1][5]) + datetime.timedelta(hours=time_zone))
                if ecl_end < res_global[1][5]:
                    ecl_end = res_global[1][5]
            if res_global[1][3] > 0:
                end = (date_convert(res_global[1][3]) + datetime.timedelta(hours=time_zone))
                if ecl_end < res_global[1][3]:
                    ecl_end = res_global[1][3]
            #print ecl_end, ecl_start
            duration = (date_convert(ecl_end) - date_convert(ecl_start))
            #print 'Type:          ', res_global[0][0], bin(res_global[0][0])
            #print 'Type: Max place', res_how[0][0], bin(res_how[0][0])
        eclipse_partial = int('0010000', 2)
        ecl_type = res_how[0][0] & eclipse_partial
        if ecl_type == 16:
            Type = 'Eclipse Partial'
            ecl_start = res_global[1][0]  # res_global[1][0]
            ecl_end = res_global[1][0]
            if res_global[1][2] > 0:
                ecl_start = res_global[1][2]
                start = (date_convert(res_global[1][2]) + datetime.timedelta(hours=time_zone))
            if res_global[1][4] > 0:
                start_totality = (date_convert(res_global[1][4]) + datetime.timedelta(hours=time_zone))
                if ecl_start >= res_global[1][4]:
                    ecl_start = res_global[1][4]
            if res_global[1][6] > 0:
                centerline_start = (date_convert(res_global[1][6]) + datetime.timedelta(hours=time_zone))
                if ecl_start > res_global[1][6]:
                    ecl_start = res_global[1][6]
            maxi = (date_convert(res_global[1][0]) + datetime.timedelta(hours=time_zone))
            if res_global[1][7] > 0:
                centerline_end = (date_convert(res_global[1][7]) + datetime.timedelta(hours=time_zone))
                ecl_end = res_global[1][7]
            if res_global[1][5] > 0:
                end_totality = (date_convert(res_global[1][5]) + datetime.timedelta(hours=time_zone))
                if ecl_end < res_global[1][5]:
                    ecl_end = res_global[1][5]
            if res_global[1][3] > 0:
                end = (date_convert(res_global[1][3]) + datetime.timedelta(hours=time_zone))
                if ecl_end < res_global[1][3]:
                    ecl_end = res_global[1][3]
            #print ecl_end, ecl_start
            duration = (date_convert(ecl_end) - date_convert(ecl_start))
            #print 'Type:          ', res_global[0][0], bin(res_global[0][0])
            #print 'Type: Max place', res_how[0][0], bin(res_how[0][0])
        eclipse_ann_total = int('0100000', 2)
        ecl_type = res_how[0][0] & eclipse_ann_total
        if ecl_type == 32:
            Type = 'Eclipse Annular-Total'

        soros_cycle = int(lat_long[2][9])
        soros_number = int(lat_long[2][10])
        max_covered = int(lat_long[2][2] * 100)
        sun_alt = lat_long[2][5]
        sun_azm = ((lat_long[2][4] + 180) % 360)
        pos_p = swe.calc_ut(res_global[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_global[1][0], 1)
        signs = birthchart.natal_planet_signs(pos_p)
        moon_pos = pos_p[0]
        moon_zodiac = constants.SIGN_ZODIAC[signs[0]]
        #print 'Where -Latitue  :', latitude
        #print 'Where -Longitude:', longitude
        magnii = lat_long[2][1]
        now = res_global[1][0] + 30  
    solar_eclipse = {'ecl_central_or_not' : ecl_central_or_not, 'soros_cycle' : soros_cycle,
                            'soros_number' : soros_number, 'max_covered' : max_covered, 'sun_alt' : sun_alt, 'sun_azm' : sun_azm,
                            'sun_pos' : sun_pos, 'sun_zodiac' : sun_zodiac, 'moon_pos' : moon_pos, 'moon_zodiac' : moon_zodiac,
                            'latii' : latitude, 'longii' : longitude, 'magnii' : magnii, 'start' : str(start), 'start_totality' : start_totality,
                            'centerline_start' : str(centerline_start), 'max' : str(maxi), 'centerline_end' : str(centerline_end),
                            'end_totality' : str(end_totality), 'end' : str(end), 'duration' : str(duration), 'Type' : Type}

    return solar_eclipse
Exemplo n.º 8
0
def solarbypos(time_zone, year, month, day, location_latitude, location_longitude):    # print i
    now = swe.julday(year, month, day)
    res_global = swe.sol_eclipse_when_glob(now)
    now = res_global[1][0] - 1
    res = swe.sol_eclipse_when_loc(now, location_longitude, location_latitude)
    res_how = swe.sol_eclipse_how(res[1][0], location_longitude, location_latitude)
    #print res
    #print res_how
    ecl_central = int('00000001', 2)
    ecl_type = res_how[0][0] & ecl_central
    if ecl_type == 1:
        ecl_central_or_not = 'Eclipse Central'
    ecl_noncentral = int('00000010', 2)
    ecl_type = res_how[0][0] & ecl_noncentral
    if ecl_type == 2:
        ecl_central_or_not = 'Eclipse Non Central'
    eclipse_total = int('00000100', 2)
    ecl_type = res_how[0][0] & eclipse_total
    if ecl_type == 4:
        Type = 'Eclipse Total'
        start = date_convert(res[1][1]) + datetime.timedelta(hours=time_zone)
        print '1    ', date_convert(res[1][2]) + datetime.timedelta(hours=time_zone)
        maxi = date_convert(res[1][0]) + datetime.timedelta(hours=time_zone)
        print '2    ', date_convert(res[1][3]) + datetime.timedelta(hours=time_zone)
        end = date_convert(res[1][4]) + datetime.timedelta(hours=time_zone)
        print 'Duration', date_convert(res[1][4]) - date_convert(res[1][1])
        print 'Duration', date_convert(res[1][3]) - date_convert(res[1][2])
        print 'Type:               ', res[0][0], bin(res[0][0])
        print 'Type: in Los Angeles', res_how[0][0], bin(res_how[0][0])
    eclipse_annual = int('00001000', 2)
    ecl_type = res_how[0][0] & eclipse_annual
    if ecl_type == 8:
        Type = 'Eclipse Annual'
        start = date_convert(res[1][1]) + datetime.timedelta(hours=time_zone)
        print '1    ', date_convert(res[1][2]) + datetime.timedelta(hours=time_zone)
        maxi = date_convert(res[1][0]) + datetime.timedelta(hours=time_zone)
        print '2    ', date_convert(res[1][3]) + datetime.timedelta(hours=time_zone)
        end = date_convert(res[1][4]) + datetime.timedelta(hours=time_zone)
        print 'Duration', date_convert(res[1][4]) - date_convert(res[1][1])
        print 'Duration', date_convert(res[1][3]) - date_convert(res[1][2])
        print 'Type:   ', res[0][0], bin(res[0][0])
        print 'Type: in Los Angeles', res_how[0][0], bin(res_how[0][0])
    eclipse_partial = int('0010000', 2)
    ecl_type = res_how[0][0] & eclipse_partial
    if ecl_type == 16:
        Type = 'Eclipse Partial'
        start = date_convert(res[1][1]) + datetime.timedelta(hours=time_zone)
        # print '1    ', date_convert(res[1][2]) + datetime.timedelta(hours=time_zone)
        maxi = date_convert(res[1][0]) + datetime.timedelta(hours=time_zone)
        # print '2    ', date_convert(res[1][3]) + datetime.timedelta(hours=time_zone)
        end = date_convert(res[1][4]) + datetime.timedelta(hours=time_zone)
        print 'Duration', date_convert(res[1][4]) - date_convert(res[1][1])
        #print 'Duration', date_convert(res[1][3]) - date_convert(res[1][2])
        print 'Type:               ', res[0][0], bin(res[0][0])
    print 'Type: in Los Angeles', res_how[0][0], bin(res_how[0][0])
    eclipse_ann_total = int('0100000', 2)
    ecl_type = res_how[0][0] & eclipse_ann_total
    if ecl_type == 32:
        Type = 'Eclipse Annular-Total'
        start = date_convert(res[1][1]) + datetime.timedelta(hours=time_zone)
        print '1    ', date_convert(res[1][2]) + datetime.timedelta(hours=time_zone)
        maxi = date_convert(res[1][0]) + datetime.timedelta(hours=time_zone)
        print '2    ', date_convert(res[1][3]) + datetime.timedelta(hours=time_zone)
        end = date_convert(res[1][4]) + datetime.timedelta(hours=time_zone)
        print 'Duration', date_convert(res[1][4]) - date_convert(res[1][1])
        print 'Duration', date_convert(res[1][3]) - date_convert(res[1][2])
        print 'Type:               ', res[0][0], bin(res[0][0])
        print 'Type: in Los Angeles', res_how[0][0], bin(res_how[0][0])
    soros_cycle = int(res[2][9])
    soros_number = int(res[2][10])
    max_covered = int(res[2][2] * 100)
    sun_alt = res[2][5]
    sun_azm = ((res[2][4] + 180) % 360)
    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]]

    pos_p = swe.calc_ut(res[1][0], 0)
    #print 'Sun  position', pos_p[0]
    pos_p = swe.calc_ut(res[1][0], 1)
    #print 'Moon position', pos_p[0]
    
 
       
    solar_eclipse_bypos = {'ecl_central_or_not' : ecl_central_or_not, 'soros_cycle' : soros_cycle,
                            'soros_number' : soros_number, 'max_covered' : max_covered, 'sun_alt' : sun_alt, 'sun_azm' : sun_azm,
                            'sun_pos' : sun_pos, 'sun_zodiac' : sun_zodiac, 'moon_pos' : moon_pos, 'moon_zodiac' : moon_zodiac, 
                            'start' : str(start), 'max' : str(maxi), 'end' : str(end), 'Type' : Type}

    return solar_eclipse_bypos