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@@ -1,20 +1,24 @@ |
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from multiprocessing import Pool as ThreadPool |
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from skyfield.api import Loader, Topos |
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from skyfield.api import Loader, Topos |
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from skyfield import almanac |
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from skyfield import almanac |
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class Ephemeris: |
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class Ephemeris: |
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MONTH = ['JAN', 'FEB', 'MAR', 'APR', 'MAY', 'JUN', 'JUL', 'AUG', 'SEP', 'OCT', 'NOV', 'DEC'] |
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PLANETS = ['MERCURY', 'VENUS', 'MARS', 'JUPITER BARYCENTER', 'SATURN BARYCENTER', 'URANUS BARYCENTER', |
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'NEPTUNE BARYCENTER', 'PLUTO BARYCENTER'] |
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position = None |
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position = None |
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latitude = None |
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longitude = None |
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timescale = None |
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timescale = None |
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planets = None |
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planets = None |
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def __init__(self, position): |
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def __init__(self, position): |
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self.MONTH = ['JAN', 'FEB', 'MAR', 'APR', 'MAY', 'JUN', 'JUL', 'AUG', 'SEP', 'OCT', 'NOV', 'DEC'] |
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self.PLANETS = ['mercury', 'venus', 'mars', 'jupiter', 'saturn', 'uranus', 'neptune', 'pluto'] |
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load = Loader('./cache') |
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load = Loader('./cache') |
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self.timescale = load.timescale() |
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self.timescale = load.timescale() |
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self.planets = load('de421.bsp') |
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self.planets = load('de421.bsp') |
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self.latitude = position['lat'] |
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self.longitude = position['lon'] |
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self.position = Topos(latitude_degrees=position['lat'], longitude_degrees=position['lon']) |
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self.position = Topos(latitude_degrees=position['lat'], longitude_degrees=position['lon']) |
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def compute_ephemeris_for_day(self, year: int, month: int, day: int) -> dict: |
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def compute_ephemeris_for_day(self, year: int, month: int, day: int) -> dict: |
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@@ -25,6 +29,7 @@ class Ephemeris: |
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# Compute sunrise and sunset |
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# Compute sunrise and sunset |
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ephemeris['sun'] = self.get_sun(time1, time2) |
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ephemeris['sun'] = self.get_sun(time1, time2) |
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ephemeris['moon'] = self.get_moon(year, month, day) |
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ephemeris['moon'] = self.get_moon(year, month, day) |
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ephemeris['planets'] = self.get_planets(year, month, day) |
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return ephemeris |
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return ephemeris |
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@@ -44,6 +49,109 @@ class Ephemeris: |
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return {'phase': y[-1]} |
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return {'phase': y[-1]} |
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def get_planets(self, year: int, month: int, day: int) -> dict: |
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args = [] |
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for planet_name in self.PLANETS: |
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args.append({'planet': planet_name, |
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'observer': {'latitude': self.latitude, 'longitude': self.longitude}, |
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'year': year, 'month': month, 'day': day}) |
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with ThreadPool(4) as pool: |
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planets = pool.map(Ephemeris.get_planet, args) |
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obj = {} |
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for planet in planets: |
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obj[planet['name'].split(' ')[0]] = {'rise': planet['rise'], 'maximum': planet['maximum'], |
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'set': planet['set']} |
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return obj |
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@staticmethod |
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def get_planet(o) -> dict: |
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load = Loader('./cache') |
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planets = load('de421.bsp') |
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timescale = load.timescale() |
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position = Topos(latitude_degrees=o['observer']['latitude'], longitude_degrees=o['observer']['longitude']) |
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observer = planets['earth'] + position |
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planet = planets[o['planet']] |
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rise_time = maximum_time = set_time = None |
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max_elevation = None |
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is_risen = None |
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is_elevating = None |
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last_is_elevating = None |
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last_position = None |
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for hours in range(0, 24): |
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time = timescale.utc(o['year'], o['month'], o['day'], hours) |
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position = observer.at(time).observe(planet).apparent().altaz()[0].degrees |
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if is_risen is None: |
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is_risen = position > 0 |
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if last_position is not None: |
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is_elevating = last_position < position |
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if rise_time is None and not is_risen and is_elevating and position > 0: |
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# Planet has risen in the last hour, let's look for a more precise time! |
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for minutes in range(0, 60): |
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time = timescale.utc(o['year'], o['month'], o['day'], hours - 1, minutes) |
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position = observer.at(time).observe(planet).apparent().altaz()[0].degrees |
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if position > 0: |
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# Planet has just risen! |
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rise_time = time |
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is_risen = True |
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break |
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if set_time is None and is_risen and not is_elevating and position < 0: |
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# Planet has set in the last hour, let's look for a more precise time! |
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for minutes in range(0, 60): |
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time = timescale.utc(o['year'], o['month'], o['day'], hours - 1, minutes) |
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position = observer.at(time).observe(planet).apparent().altaz()[0].degrees |
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if position < 0: |
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# Planet has just set! |
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set_time = time |
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is_risen = False |
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break |
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print(is_elevating, last_is_elevating, max_elevation, last_position, position) |
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if not is_elevating and last_is_elevating: |
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# Planet has reached its azimuth in the last hour, let's look for a more precise time! |
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for minutes in range(0, 60): |
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time = timescale.utc(o['year'], o['month'], o['day'], hours - 1, minutes) |
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position = observer.at(time).observe(planet).apparent().altaz()[0].degrees |
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max_elevation = position |
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maximum_time = time |
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if last_position > position: |
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# Planet has reached its azimuth! |
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is_elevating = False |
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break |
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last_position = position |
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last_position = position |
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last_is_elevating = is_elevating |
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if rise_time is not None and set_time is not None and maximum_time is not None: |
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return { |
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'name': o['planet'], |
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'rise': rise_time.utc_iso(), |
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'maximum': maximum_time.utc_iso(), |
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'set': set_time.utc_iso() |
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} |
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return { |
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'name': o['planet'], |
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'rise': rise_time.utc_iso() if rise_time is not None else None, |
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'maximum': maximum_time.utc_iso() if maximum_time is not None else None, |
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'set': set_time.utc_iso() if set_time is not None else None |
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} |
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def compute_ephemeris_for_month(self, year: int, month: int) -> list: |
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def compute_ephemeris_for_month(self, year: int, month: int) -> list: |
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if month == 2: |
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if month == 2: |
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is_leap_year = (year % 4 == 0 and year % 100 > 0) or (year % 400 == 0) |
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is_leap_year = (year % 4 == 0 and year % 100 > 0) or (year % 400 == 0) |
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