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How to use the ephem.next_solstice function in ephem

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github home-assistant / home-assistant / homeassistant / components / season / sensor.py View on Github external
def get_season(date, hemisphere, season_tracking_type):
    """Calculate the current season."""

    if hemisphere == "equator":
        return None

    if season_tracking_type == TYPE_ASTRONOMICAL:
        spring_start = ephem.next_equinox(str(date.year)).datetime()
        summer_start = ephem.next_solstice(str(date.year)).datetime()
        autumn_start = ephem.next_equinox(spring_start).datetime()
        winter_start = ephem.next_solstice(summer_start).datetime()
    else:
        spring_start = datetime(2017, 3, 1).replace(year=date.year)
        summer_start = spring_start.replace(month=6)
        autumn_start = spring_start.replace(month=9)
        winter_start = spring_start.replace(month=12)

    if spring_start <= date < summer_start:
        season = STATE_SPRING
    elif summer_start <= date < autumn_start:
        season = STATE_SUMMER
    elif autumn_start <= date < winter_start:
        season = STATE_AUTUMN
    elif winter_start <= date or spring_start > date:
        season = STATE_WINTER

    # If user is located in the southern hemisphere swap the season
github akkana / scripts / skyalignments.py View on Github external
azimuths = {}

    # start_date = ephem.Date('%d/1/1' % year)
    start_date = ephem.Date((year, 1, 1))
    # date= ephem.date((-59000,1,1))

    observer.date = ephem.next_equinox(start_date)
    azimuths['vernal equinox'] = find_azimuths(observer)

    observer.date = ephem.next_solstice(observer.date)
    azimuths['summer solstice'] = find_azimuths(observer)

    observer.date = ephem.next_equinox(observer.date)
    azimuths['autumnal equinox'] = find_azimuths(observer)

    observer.date = ephem.next_solstice(observer.date)
    azimuths['winter solstice'] = find_azimuths(observer)

    # pprint(azimuths)

    # How many degrees is close enough?
    DEGREESLOP = 2.

    # If allpoints is set, check angles among all pairs of points.
    # Otherwise, only check angles from observer to other points.
    if allpoints:
        print("Looking for alignments among all points")
        observer_points = waypoints
    else:
        observer_points = [ [ observer.name,
                              observer.lat / ephem.degree,
                              observer.lon / ephem.degree,
github domogik / domogik / src / domogik / common / cron.py View on Github external
The date tuple should be in the local time.
        return date tupple
        """
        cpm = None;
        if self.string_tab == '@fullmoon':
            cpm = ephem.next_full_moon(date_tuple)
        elif self.string_tab == '@newmoon':
            cpm = ephem.next_new_moon(date_tuple)
        elif self.string_tab == '@firstquarter':
            cpm = ephem.next_first_quarter_moon(date_tuple)
        elif self.string_tab == '@lastquarter':
            cpm = ephem.next_last_quarter_moon(date_tuple)
        elif self.string_tab == '@equinox':
            cpm = ephem.next_equinox(date_tuple)
        elif self.string_tab == '@solstice':
            cpm = ephem.next_solstice(date_tuple)
        elif self.string_tab in ['@dawn', '@dusk']:
            bobs = ephem.Sun()
            date = "{0}/{1}/{2} 00:00".format(date_tuple[0], date_tuple[1], date_tuple[2])
            self._observer.date = date
#            print date
            if self.string_tab == '@dawn':
                cpm = self._observer.next_rising(bobs, start=date)
            else:
                cpm = self._observer.next_setting(bobs, start=date)
        if cpm:
            d = ephem.Date(cpm.tuple())
#            print(u"Timezone : {0}".format(self.timeZone))
#            print(u"Date UTC : {0}".format(d))
#            print(u"Date Local : {0}".format(ephem.localtime(d)))
            dd = d.datetime()
            tzd = self.timeZone.localize(dd)
github home-assistant / home-assistant / homeassistant / components / season / sensor.py View on Github external
def get_season(date, hemisphere, season_tracking_type):
    """Calculate the current season."""

    if hemisphere == "equator":
        return None

    if season_tracking_type == TYPE_ASTRONOMICAL:
        spring_start = ephem.next_equinox(str(date.year)).datetime()
        summer_start = ephem.next_solstice(str(date.year)).datetime()
        autumn_start = ephem.next_equinox(spring_start).datetime()
        winter_start = ephem.next_solstice(summer_start).datetime()
    else:
        spring_start = datetime(2017, 3, 1).replace(year=date.year)
        summer_start = spring_start.replace(month=6)
        autumn_start = spring_start.replace(month=9)
        winter_start = spring_start.replace(month=12)

    if spring_start <= date < summer_start:
        season = STATE_SPRING
    elif summer_start <= date < autumn_start:
        season = STATE_SUMMER
    elif autumn_start <= date < winter_start:
        season = STATE_AUTUMN
    elif winter_start <= date or spring_start > date:
        season = STATE_WINTER

ephem

Compute positions of the planets and stars

GitHub
MIT
Latest version published 7 months ago

Package Health Score

82 / 100
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