Exemplo n.º 1
0
Arquivo: hga.py Projeto: zymael/zymael
    def __init__(self,DATE,POS):
        chart = Chart(DATE, POS)
        sun = chart.getObject(const.SUN)
        sunSign = sun.sign
        sunDegree = int(sun.signlon)
        moon = chart.getObject(const.MOON)
        moonSign = moon.sign
        moonDegree = int(moon.signlon)
        syzygy = chart.getObject(const.SYZYGY)
        syzygySign = syzygy.sign
        syzygyDegree = int(syzygy.signlon)

        self.sun={'sign':sunSign,'degree':sunDegree}
        self.moon={'sign':moonSign,'degree':moonDegree}
        self.syzygy={'sign':syzygySign,'degree':syzygyDegree}
Exemplo n.º 2
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def advancedview():

    if flask.request.method == "POST":
        num = flask.request.form.get('choiceit')
        town = flask.request.form.get('town')
        country = flask.request.form.get('country')
        #        print('num is:', num)
        if len(num) > 6:
            yy, mm, dd = num[:4], num[5:7], num[8:10]
            tiden = yy + '/' + mm + '/' + dd
            date = Datetime(tiden, '17:00', '+00:00')
            geo_coordinates = get_geo_cords(town, country)
            if not geo_coordinates:
                return flask.render_template("advanced.html",
                                             countries=countries,
                                             error="Could not find the city")

            g0, g1 = float(geo_coordinates[0]), float(
                geo_coordinates[1].replace('</span>', ''))
            pos = GeoPos(g0, g1)
            chart = Chart(date, pos, IDs=const.LIST_OBJECTS)
            sun = chart.getObject(const.SUN)
            #            print("Your sun sign is: ",sun.sign) #zodiac sign
            #            print("Your zodiac is explained as: ", explain_zodiac(sun.sign))
            #            print("Your sun movement is: ",sun.movement())
            #            print("Your sun element is: ",sun.element())
            #            print("Explained element:", explain_element(sun.element()))
            #            print("Your sun faction is: ",sun.faction())
            #print(chart.__dict__)
            #house is different depending on chart
            #            for merp in const.LIST_HOUSES:
            #                    print(merp, 'sign is',chart.getHouse(merp).sign,'The condition is:',chart.getHouse(merp).condition())
            #                    print("This is the",explain_house(merp).get("translated"), " the lating motto for it is '",explain_house(merp).get("Latin motto"),"' It's basicly means: ",explain_house(merp).get('explain'))
            ##print("Your sun element is: ",chart.getObject(const.SUN).figures())
            moon = chart.get(const.MOON)
            #           print("Your moon is in:", moon.sign)
            #           print("Your moon movement is: ",moon.movement())
            #           print("Your moon element is: ",moon.element())
            #            print("Explained element:", explain_element(moon.element()))
            #            print("Your moon faction is: ",moon.faction())
            #            print("Your moon phase:", chart.getMoonPhase())
            return flask.render_template("advanced.html",
                                         moon=moon,
                                         sun=sun,
                                         const=const,
                                         explain_house=explain_house,
                                         chart=chart,
                                         explain_zodiac=explain_zodiac,
                                         explain_element=explain_element)

    return flask.render_template("advanced.html", countries=countries)
Exemplo n.º 3
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def get_calendar(start, end):
    dates = pd.date_range(start=start, end=end)
    calendar = []
    for d in dates:
        date = Datetime(d.strftime("%Y/%m/%d"), '12:00', '+00:00')
        pos = GeoPos('51n23', '0w18')
        chart = Chart(date, pos)
        moon = chart.getObject(flc.MOON)
        sun = chart.getObject(flc.SUN)
        mercury = chart.getObject(flc.MERCURY)
        venus = chart.getObject(flc.VENUS)
        mars = chart.getObject(flc.MARS)
        calendar.append({
            'date': d,
            'moon_lon': int(moon.lon),
            'sun_lon': int(sun.lon),
            'mercury_lon': int(mercury.lon),
            'venus_lon': int(venus.lon),
            'mars_lon': int(mars.lon)
        })

    calendar = pd.DataFrame(calendar)
    return calendar
Exemplo n.º 4
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def main(latitude: float, longitude: float, date: datetime):
    flatlib_datetime = convert_into_stupid_flatlib_format(date)
    position = GeoPos(latitude, longitude)
    chart = Chart(flatlib_datetime, position)
    for planet in planet_symbols.keys():
        planet_position = chart.getObject(planet)
        print(
            planet_symbols[planet],
            sign_symbols[planet_position.sign],
            "℞"
            if planet_position.movement() == flatlib.const.RETROGRADE else "",
            end="",
        )
    print()
Exemplo n.º 5
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async def cmd_sun(message):
    l = message.content.split(' ')
    try:
        date = parse(l[1])
        datetime = Datetime(date.strftime('%Y/%m/%d'))
        pos = GeoPos('00n00', '0w00')
        chart = Chart(datetime, pos)
        sun = str(chart.getObject(SUN)).split(' ')[1]
        await send_text(
            client, message.channel,
            "If you were born on %s, then you're a %s!" %
            (date.strftime('%B %d, %Y'), sun))
    except Exception as e:
        logger.info(e)
        await send_text(client, message.channel, "Invalid date string")
Exemplo n.º 6
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def in_day(year, month, day, hour, minute):
    """ Função retorna data thelemica de um dia e horário especifico

    :param year: Ano
    :param month: Mês
    :param day: Dia
    :param hour: Hora
    :param minute: Minuto
    :return: a data thelemica dos dados passados
    """
    ev_in_day_weekday = date(year, month, day).weekday()
    ev_in_day_date = str(date(year, month, day).strftime('%Y/%m/%d'))
    ev_in_day_time = f'{hour}:{minute}'
    ev_in_day_na_year = int(year) - 1904

    # New Aeon "generation" of 22 years
    ciclo_i = ev_in_day_na_year // 22

    # // Years in the current cycle
    ciclo_ii = int(year) - 1904 - (ciclo_i * 22)

    # New Aeon year
    na_year = numerals[ciclo_ii].upper() + ':' + numerals[ciclo_i]

    na_date = Datetime(ev_in_day_date, ev_in_day_time, '-03:00')
    pos = GeoPos('23s39', '46w32')
    chart = Chart(na_date, pos)

    sun = chart.getObject(const.SUN)
    solis = str(sun).split(' ')
    solis_sign = solis[1]
    solis_arc = solis[2].split(':')[0].replace('+', '')

    moon = chart.get(const.MOON)
    luna = str(moon).split(' ')
    luna_sign = luna[1]
    luna_arc = luna[2].split(':')[0].replace('+', '')

    return (f'☉ in {solis_arc}º {signs[solis_sign]} '
            f'☽ in {luna_arc}º {signs[luna_sign]} '
            f'Dies {dies[ev_in_day_weekday]} '
            f'Anno {na_year} æræ novæ')
Exemplo n.º 7
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def now():
    """ Função não recebe parametros
    :return: a data thelemica atual
    """
    # Era Vulgar Year
    ev_year = int(date.today().strftime('%Y'))

    # Whole Years since March Equinox 1904
    ev_years_total = ev_year - 1904

    # New Aeon "generation" of 22 years
    ciclo_i = ev_years_total // 22

    # // Years in the current cycle
    ciclo_ii = ev_year - 1904 - (ciclo_i * 22)

    # New Aeon year
    na_year = numerals[ciclo_ii].upper() + ':' + numerals[ciclo_i]

    ev_weekday = date.today().weekday()
    ev_today = str(date.today().strftime('%Y/%m/%d'))
    ev_time = str(time.strftime('%H:%M'))

    na_date = Datetime(ev_today, ev_time, '-03:00')
    pos = GeoPos('23s39', '46w32')
    chart = Chart(na_date, pos)

    sun = chart.getObject(const.SUN)
    solis = str(sun).split(' ')
    solis_sign = solis[1]
    solis_arc = solis[2].split(':')[0].replace('+', '')

    moon = chart.get(const.MOON)
    luna = str(moon).split(' ')
    luna_sign = luna[1]
    luna_arc = luna[2].split(':')[0].replace('+', '')

    return (f'☉ in {solis_arc}º {signs[solis_sign]} '
            f'☽ in {luna_arc}º {signs[luna_sign]} '
            f'Dies {dies[ev_weekday]} '
            f'Anno {na_year} æræ novæ')
Exemplo n.º 8
0
async def cmd_chart(message):
    global TZWHERE_INST, GEOLOCATOR
    l = message.content.split(' ')
    date = parse(l[1])
    time = parse(l[2])
    pos = 3
    if l[3].lower() == 'am':
        pos += 1
    if l[3].lower() == 'pm':
        pos += 1
        time.replace(hour=time.hour + 12)
    place = ' '.join(l[pos:])
    location = GEOLOCATOR.geocode(place, addressdetails=True)
    timezone_str = TZWHERE_INST.tzNameAt(location.latitude, location.longitude)
    timezone = pytz.timezone(timezone_str)
    offset = str(timezone.utcoffset(date).total_seconds() / 60 / 60).replace(
        '.', ':')
    datetime = Datetime(date.strftime('%Y/%m/%d'), time.strftime('%H:%M'),
                        offset)
    pos = GeoPos(location.latitude, location.longitude)
    chart = Chart(datetime, pos)
    response = ["%s, your chart is:" % (message.author.mention)]
    for const in LIST_OBJECTS:
        try:
            response += [
                '   %s: %s' % (const, str(chart.getObject(const).sign))
            ]
        except:
            pass
    try:
        url, img = get_chart_image(date, time, location, message)
        response += [url]
        response += [img]
    except Exception as e:
        logger.critical(e)
        response += ["Couldn't generate your image :/"]
    logger.info("Sending message: %s" % '\n'.join(response))
    await send_text(client, message.channel, '\n'.join(response))
Exemplo n.º 9
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from flatlib import const
from flatlib.chart import Chart
from flatlib.datetime import Datetime
from flatlib.geopos import GeoPos
from flatlib.tools.chartdynamics import ChartDynamics
from flatlib.protocols import almutem

# Build a chart for a date and location
date = Datetime('2020/01/20', '05:00', '+2:50')
pos = GeoPos('39:57', '32:53')
chart = Chart(date, pos)
sun = chart.getObject(const.SUN)
#print("--------------- SUN")
print("Güneş Burç :" + sun.sign)  #gunes burc
moon = chart.getObject(const.MOON)
print("Ay Burç :" + moon.sign)  #gunes burc
#print(sun.signlon)#gunes burc
#print(sun.gender())#gunes burc cinsiyet
#print(sun)
print("------------------EVLER-----------")
#Ev listesi
homeList = [
    const.HOUSE1, const.HOUSE2, const.HOUSE3, const.HOUSE4, const.HOUSE5,
    const.HOUSE6, const.HOUSE7, const.HOUSE8, const.HOUSE9, const.HOUSE10,
    const.HOUSE11, const.HOUSE12
]
house1 = chart.get(const.HOUSE12)
for i in homeList:
    print("{0}:   {1} ".format(i, chart.get(i).sign))

alm = almutem.compute(chart)
 def get_moon_sign(self, chart: Chart) -> str:
     return chart.getObject(MOON).sign
 def get_sun_sign(self, chart: Chart) -> str:
     return chart.getObject(SUN).sign
Exemplo n.º 12
0
from flatlib import const
from flatlib.chart import Chart
from flatlib.datetime import Datetime
from flatlib.geopos import GeoPos
from flatlib.tools.chartdynamics import ChartDynamics

# Build a chart for a date and location
date = Datetime('1997/01/20', '01:00', '+3:50')
pos = GeoPos('38:55', '27:50')
chart = Chart(date, pos)
sun = chart.getObject(const.SUN)
print("--------------- SUN")
print(sun.sign)  #günes yükselen