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kosmorro/kosmorrolib/ephemerides.py

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  1. #!/usr/bin/env python3

  2. 

  3. #    Kosmorro - Compute The Next Ephemerides

  4. #    Copyright (C) 2019  Jérôme Deuchnord <jerome@deuchnord.fr>

  5. #

  6. #    This program is free software: you can redistribute it and/or modify

  7. #    it under the terms of the GNU Affero General Public License as

  8. #    published by the Free Software Foundation, either version 3 of the

  9. #    License, or (at your option) any later version.

  10. #

  11. #    This program is distributed in the hope that it will be useful,

  12. #    but WITHOUT ANY WARRANTY; without even the implied warranty of

  13. #    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the

  14. #    GNU Affero General Public License for more details.

  15. #

  16. #    You should have received a copy of the GNU Affero General Public License

  17. #    along with this program.  If not, see <https://www.gnu.org/licenses/>.

  18. 

  19. import datetime

  20. from typing import Union

  21. 

  22. from skyfield.searchlib import find_discrete, find_maxima

  23. from skyfield.timelib import Time

  24. from skyfield.constants import tau

  25. from skyfield.errors import EphemerisRangeError

  26. 

  27. from .data import Position, AsterEphemerides, MoonPhase, Object, ASTERS

  28. from .dateutil import translate_to_timezone

  29. from .core import get_skf_objects, get_timescale, get_iau2000b

  30. from .enum import MoonPhaseType

  31. from .exceptions import OutOfRangeDateError

  32. 

  33. RISEN_ANGLE = -0.8333

  34. 

  35. 

  36. def _get_skyfield_to_moon_phase(times: [Time], vals: [int], now: Time) -> Union[MoonPhase, None]:

  37.     tomorrow = get_timescale().utc(now.utc_datetime().year, now.utc_datetime().month, now.utc_datetime().day + 1)

  38. 

  39.     phases = list(MoonPhaseType)

  40.     current_phase = None

  41.     current_phase_time = None

  42.     next_phase_time = None

  43.     i = 0

  44. 

  45.     if len(times) == 0:

  46.         return None

  47. 

  48.     for i, time in enumerate(times):

  49.         if now.utc_iso() <= time.utc_iso():

  50.             if vals[i] in [0, 2, 4, 6]:

  51.                 if time.utc_datetime() < tomorrow.utc_datetime():

  52.                     current_phase_time = time

  53.                     current_phase = phases[vals[i]]

  54.                 else:

  55.                     i -= 1

  56.                     current_phase_time = None

  57.                     current_phase = phases[vals[i]]

  58.             else:

  59.                 current_phase = phases[vals[i]]

  60. 

  61.             break

  62. 

  63.     for j in range(i + 1, len(times)):

  64.         if vals[j] in [0, 2, 4, 6]:

  65.             next_phase_time = times[j]

  66.             break

  67. 

  68.     return MoonPhase(current_phase,

  69.                      current_phase_time.utc_datetime() if current_phase_time is not None else None,

  70.                      next_phase_time.utc_datetime() if next_phase_time is not None else None)

  71. 

  72. 

  73. def get_moon_phase(compute_date: datetime.date, timezone: int = 0) -> MoonPhase:

  74.     earth = get_skf_objects()['earth']

  75.     moon = get_skf_objects()['moon']

  76.     sun = get_skf_objects()['sun']

  77. 

  78.     def moon_phase_at(time: Time):

  79.         time._nutation_angles = get_iau2000b(time)

  80.         current_earth = earth.at(time)

  81.         _, mlon, _ = current_earth.observe(moon).apparent().ecliptic_latlon('date')

  82.         _, slon, _ = current_earth.observe(sun).apparent().ecliptic_latlon('date')

  83.         return (((mlon.radians - slon.radians) // (tau / 8)) % 8).astype(int)

  84. 

  85.     moon_phase_at.rough_period = 7.0  # one lunar phase per week

  86. 

  87.     today = get_timescale().utc(compute_date.year, compute_date.month, compute_date.day)

  88.     time1 = get_timescale().utc(compute_date.year, compute_date.month, compute_date.day - 10)

  89.     time2 = get_timescale().utc(compute_date.year, compute_date.month, compute_date.day + 10)

  90. 

  91.     try:

  92.         times, phase = find_discrete(time1, time2, moon_phase_at)

  93.     except EphemerisRangeError as error:

  94.         start = translate_to_timezone(error.start_time.utc_datetime(), timezone)

  95.         end = translate_to_timezone(error.end_time.utc_datetime(), timezone)

  96. 

  97.         start = datetime.date(start.year, start.month, start.day) + datetime.timedelta(days=12)

  98.         end = datetime.date(end.year, end.month, end.day) - datetime.timedelta(days=12)

  99. 

  100.         raise OutOfRangeDateError(start, end) from error

  101. 

  102.     return _get_skyfield_to_moon_phase(times, phase, today)

  103. 

  104. 

  105. def get_ephemerides(date: datetime.date, position: Position, timezone: int = 0) -> [AsterEphemerides]:

  106.     ephemerides = []

  107. 

  108.     def get_angle(for_aster: Object):

  109.         def fun(time: Time) -> float:

  110.             return position.get_planet_topos().at(time).observe(for_aster.get_skyfield_object()).apparent().altaz()[0]\

  111.                    .degrees

  112.         fun.rough_period = 1.0

  113.         return fun

  114. 

  115.     def is_risen(for_aster: Object):

  116.         def fun(time: Time) -> bool:

  117.             return get_angle(for_aster)(time) > RISEN_ANGLE

  118.         fun.rough_period = 0.5

  119.         return fun

  120. 

  121.     start_time = get_timescale().utc(date.year, date.month, date.day, -timezone)

  122.     end_time = get_timescale().utc(date.year, date.month, date.day, 23 - timezone, 59, 59)

  123. 

  124.     try:

  125.         for aster in ASTERS:

  126.             rise_times, arr = find_discrete(start_time, end_time, is_risen(aster))

  127.             try:

  128.                 culmination_time, _ = find_maxima(start_time, end_time, f=get_angle(aster), epsilon=1./3600/24, num=12)

  129.                 culmination_time = culmination_time[0] if len(culmination_time) > 0 else None

  130.             except ValueError:

  131.                 culmination_time = None

  132. 

  133.             if len(rise_times) == 2:

  134.                 rise_time = rise_times[0 if arr[0] else 1]

  135.                 set_time = rise_times[1 if not arr[1] else 0]

  136.             else:

  137.                 rise_time = rise_times[0] if arr[0] else None

  138.                 set_time = rise_times[0] if not arr[0] else None

  139. 

  140.             # Convert the Time instances to Python datetime objects

  141.             if rise_time is not None:

  142.                 rise_time = translate_to_timezone(rise_time.utc_datetime().replace(microsecond=0),

  143.                                                   to_tz=timezone)

  144. 

  145.             if culmination_time is not None:

  146.                 culmination_time = translate_to_timezone(culmination_time.utc_datetime().replace(microsecond=0),

  147.                                                          to_tz=timezone)

  148. 

  149.             if set_time is not None:

  150.                 set_time = translate_to_timezone(set_time.utc_datetime().replace(microsecond=0),

  151.                                                  to_tz=timezone)

  152. 

  153.             ephemerides.append(AsterEphemerides(rise_time, culmination_time, set_time, aster=aster))

  154.     except EphemerisRangeError as error:

  155.         start = translate_to_timezone(error.start_time.utc_datetime(), timezone)

  156.         end = translate_to_timezone(error.end_time.utc_datetime(), timezone)

  157. 

  158.         start = datetime.date(start.year, start.month, start.day + 1)

  159.         end = datetime.date(end.year, end.month, end.day - 1)

  160. 

  161.         raise OutOfRangeDateError(start, end) from error

  162. 

  163.     return ephemerides