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fix: false positives on opposition

pull/17/head
Jérôme Deuchnord 3 years ago
parent
commit
bf7d588a9c
1 changed files with 54 additions and 13 deletions
  1. +54
    -13
      kosmorrolib/events.py

+ 54
- 13
kosmorrolib/events.py View File

@@ -1,6 +1,6 @@
#!/usr/bin/env python3 #!/usr/bin/env python3


from datetime import date as date_type
from datetime import date


from skyfield.errors import EphemerisRangeError from skyfield.errors import EphemerisRangeError
from skyfield.timelib import Time from skyfield.timelib import Time
@@ -9,7 +9,7 @@ from numpy import pi


from .model import Event, Star, Planet, ASTERS from .model import Event, Star, Planet, ASTERS
from .dateutil import translate_to_timezone from .dateutil import translate_to_timezone
from .enum import EventType
from .enum import EventType, ObjectIdentifier
from .exceptions import OutOfRangeDateError from .exceptions import OutOfRangeDateError
from .core import get_timescale, get_skf_objects, flatten_list from .core import get_timescale, get_skf_objects, flatten_list


@@ -85,29 +85,61 @@ def _search_conjunction(start_time: Time, end_time: Time, timezone: int) -> [Eve




def _search_oppositions(start_time: Time, end_time: Time, timezone: int) -> [Event]: def _search_oppositions(start_time: Time, end_time: Time, timezone: int) -> [Event]:
"""Function to search oppositions.

**Warning:** this is an internal function, not intended for use by end-developers.

Will return Mars opposition on 2020-10-13:

>>> oppositions = _search_oppositions(get_timescale().utc(2020, 10, 13), get_timescale().utc(2020, 10, 14), 0)
>>> len(oppositions)
1
>>> oppositions[0].objects[0]
<Object type=PLANET name=MARS />

Will return nothing if no opposition happens:

>>> _search_oppositions(get_timescale().utc(2021, 3, 20), get_timescale().utc(2021, 3, 21), 0)
[]
"""
earth = get_skf_objects()["earth"] earth = get_skf_objects()["earth"]
sun = get_skf_objects()["sun"] sun = get_skf_objects()["sun"]
aster = None aster = None


def is_oppositing(time: Time) -> [bool]: def is_oppositing(time: Time) -> [bool]:
diff = get_angle(time)
return diff > 180

def get_angle(time: Time):
earth_pos = earth.at(time) earth_pos = earth.at(time)

sun_pos = earth_pos.observe( sun_pos = earth_pos.observe(
sun sun
).apparent() # Never do this without eyes protection! ).apparent() # Never do this without eyes protection!
aster_pos = earth_pos.observe(get_skf_objects()[aster.skyfield_name]).apparent() aster_pos = earth_pos.observe(get_skf_objects()[aster.skyfield_name]).apparent()

_, lon1, _ = sun_pos.ecliptic_latlon() _, lon1, _ = sun_pos.ecliptic_latlon()
_, lon2, _ = aster_pos.ecliptic_latlon() _, lon2, _ = aster_pos.ecliptic_latlon()
return (lon1.degrees - lon2.degrees) > 180

return lon1.degrees - lon2.degrees


is_oppositing.rough_period = 1.0 is_oppositing.rough_period = 1.0
events = [] events = []


for aster in ASTERS: for aster in ASTERS:
if not isinstance(aster, Planet) or aster.skyfield_name in ["MERCURY", "VENUS"]:
if not isinstance(aster, Planet) or aster.identifier in [
ObjectIdentifier.MERCURY,
ObjectIdentifier.VENUS,
]:
continue continue


times, _ = find_discrete(start_time, end_time, is_oppositing) times, _ = find_discrete(start_time, end_time, is_oppositing)
for time in times: for time in times:
if get_angle(time) < 0:
# If the angle is negative, then it is actually a false positive.
# Just ignoring it.
continue

events.append( events.append(
Event( Event(
EventType.OPPOSITION, EventType.OPPOSITION,
@@ -213,31 +245,40 @@ def _search_moon_perigee(start_time: Time, end_time: Time, timezone: int) -> [Ev
return events return events




def get_events(date: date_type = date_type.today(), timezone: int = 0) -> [Event]:
def get_events(for_date: date = date.today(), timezone: int = 0) -> [Event]:
"""Calculate and return a list of events for the given date, adjusted to the given timezone if any. """Calculate and return a list of events for the given date, adjusted to the given timezone if any.


Find events that happen on April 4th, 2020 (show hours in UTC): Find events that happen on April 4th, 2020 (show hours in UTC):


>>> get_events(date_type(2020, 4, 4))
>>> get_events(date(2020, 4, 4))
[<Event type=CONJUNCTION objects=[<Object type=PLANET name=MERCURY />, <Object type=PLANET name=NEPTUNE />] start=2020-04-04 01:14:39.063308+00:00 end=None details=None />] [<Event type=CONJUNCTION objects=[<Object type=PLANET name=MERCURY />, <Object type=PLANET name=NEPTUNE />] start=2020-04-04 01:14:39.063308+00:00 end=None details=None />]


Find events that happen on April 4th, 2020 (show timezones in UTC+2): Find events that happen on April 4th, 2020 (show timezones in UTC+2):


>>> get_events(date_type(2020, 4, 4), 2)
>>> get_events(date(2020, 4, 4), 2)
[<Event type=CONJUNCTION objects=[<Object type=PLANET name=MERCURY />, <Object type=PLANET name=NEPTUNE />] start=2020-04-04 03:14:39.063267+02:00 end=None details=None />] [<Event type=CONJUNCTION objects=[<Object type=PLANET name=MERCURY />, <Object type=PLANET name=NEPTUNE />] start=2020-04-04 03:14:39.063267+02:00 end=None details=None />]


Find events that happen on April 3rd, 2020 (show timezones in UTC-2): Find events that happen on April 3rd, 2020 (show timezones in UTC-2):


>>> get_events(date_type(2020, 4, 3), -2)
>>> get_events(date(2020, 4, 3), -2)
[<Event type=CONJUNCTION objects=[<Object type=PLANET name=MERCURY />, <Object type=PLANET name=NEPTUNE />] start=2020-04-03 23:14:39.063388-02:00 end=None details=None />] [<Event type=CONJUNCTION objects=[<Object type=PLANET name=MERCURY />, <Object type=PLANET name=NEPTUNE />] start=2020-04-03 23:14:39.063388-02:00 end=None details=None />]


:param date: the date for which the events must be calculated
If there is no events for the given date, then an empty list is returned:

>>> get_events(date(2021, 3, 20))
[]

:param for_date: the date for which the events must be calculated
:param timezone: the timezone to adapt the results to. If not given, defaults to 0. :param timezone: the timezone to adapt the results to. If not given, defaults to 0.
:return: a list of events found for the given date. :return: a list of events found for the given date.
""" """


start_time = get_timescale().utc(date.year, date.month, date.day, -timezone)
end_time = get_timescale().utc(date.year, date.month, date.day + 1, -timezone)
start_time = get_timescale().utc(
for_date.year, for_date.month, for_date.day, -timezone
)
end_time = get_timescale().utc(
for_date.year, for_date.month, for_date.day + 1, -timezone
)


try: try:
found_events = [] found_events = []
@@ -256,7 +297,7 @@ def get_events(date: date_type = date_type.today(), timezone: int = 0) -> [Event
start_date = translate_to_timezone(error.start_time.utc_datetime(), timezone) start_date = translate_to_timezone(error.start_time.utc_datetime(), timezone)
end_date = translate_to_timezone(error.end_time.utc_datetime(), timezone) end_date = translate_to_timezone(error.end_time.utc_datetime(), timezone)


start_date = date_type(start_date.year, start_date.month, start_date.day)
end_date = date_type(end_date.year, end_date.month, end_date.day)
start_date = date(start_date.year, start_date.month, start_date.day)
end_date = date(end_date.year, end_date.month, end_date.day)


raise OutOfRangeDateError(start_date, end_date) from error raise OutOfRangeDateError(start_date, end_date) from error

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