From d34abca4c8c668ae0bc55e1f8fa6fc9e126dc4de Mon Sep 17 00:00:00 2001 From: SpudGunMan Date: Wed, 19 Jun 2024 21:07:22 -0700 Subject: [PATCH] Update solarconditions.py --- solarconditions.py | 71 ++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 71 insertions(+) diff --git a/solarconditions.py b/solarconditions.py index 4b03b23..6e6237f 100644 --- a/solarconditions.py +++ b/solarconditions.py @@ -8,6 +8,7 @@ from datetime import timedelta from dateutil import tz # pip install python-dateutil from suntime import Sun, SunTimeException # pip install suntime from datetime import datetime +import ephem # pip install pyephem LATITUDE = 48.50 LONGITUDE = -123.0 @@ -68,3 +69,73 @@ def get_sunrise_sunset(lat=0, lon=0): today_ss = today_ss + timedelta(1) todaysun = [today_sr.astimezone(to_zone).strftime('%a %d %I:%M'), today_ss.astimezone(to_zone).strftime('%a %d %I:%M')] return todaysun + +def get_sun(lat=0, lon=0): + obs = ephem.Observer() + obs.date = datetime.now() + sun = ephem.Sun() + if lat != 0 and lon != 0: + obs.lat = str(lat) + obs.lon = str(lon) + else: + obs.lat = str(LATITUDE) + obs.lon = str(LONGITUDE) + + sun.compute(obs) + sun_table = {} + sun_table['azimuth'] = sun.az + sun_table['altitude'] = sun.alt + sun_table['ra'] = sun.ra + sun_table['dec'] = sun.dec + # distance from earth in km + sun_table['earth_distance'] = sun.earth_distance * ephem.meters_per_au / 1000 + sun_table['parallactic_angle'] = sun.parallactic_angle() + # get the next rise and set times + local_sunrise = ephem.localtime(obs.next_rising(sun)).strftime('%a %d %I:%M') + local_sunset = ephem.localtime(obs.next_setting(sun)).strftime('%a %d %I:%M') + sun_table['rise_time'] = local_sunrise + sun_table['set_time'] = local_sunset + + sun_table['transit_time'] = obs.next_transit(sun).datetime().strftime('%a %d %I:%M') + sun_table['direction'] = ['N', 'NE', 'E', 'SE', 'S', 'SW', 'W', 'NW'][round(sun.az / (2 * ephem.pi / 8)) % 8] + + sun_data = f"Sun Rise:" + sun_table['rise_time'] + " Set:" + sun_table['set_time'] + "\nSun Azimuth:" + str(sun_table['azimuth']) \ + + "\nSun Altitude:" + str(sun_table['altitude']) + "\nSun Direction:" + sun_table['direction'] + return sun_data + +def get_moon(lat=0, lon=0): + obs = ephem.Observer() + moon = ephem.Moon() + if lat != 0 and lon != 0: + obs.lat = str(lat) + obs.lon = str(lon) + else: + obs.lat = str(LATITUDE) + obs.lon = str(LONGITUDE) + + obs.date = datetime.now() + moon.compute(obs) + moon_table = {} + moon_phase = ['New Moon', 'Waxing Crescent', 'First Quarter', 'Waxing Gibbous', 'Full Moon', 'Waning Gibbous', 'Last Quarter', 'Waning Crescent'][round(moon.phase / (2 * ephem.pi) * 8) % 8] + moon_table['phase'] = moon_phase + moon_table['illumination'] = moon.phase + moon_table['azimuth'] = moon.az + moon_table['altitude'] = moon.alt + moon_table['ra'] = moon.ra + moon_table['dec'] = moon.dec + # distance from earth in km + moon_table['earth_distance'] = moon.earth_distance * ephem.meters_per_au / 1000 + moon_table['parallactic_angle'] = moon.parallactic_angle() + moon_table['rise_time'] = obs.next_rising(moon).datetime().strftime('%Y-%m-%d %H:%M:%S') + moon_table['set_time'] = obs.next_setting(moon).datetime().strftime('%Y-%m-%d %H:%M:%S') + moon_table['transit_time'] = obs.next_transit(moon).datetime().strftime('%Y-%m-%d %H:%M:%S') + moon_table['direction'] = ['N', 'NE', 'E', 'SE', 'S', 'SW', 'W', 'NW'][round(moon.az / (2 * ephem.pi / 8)) % 8] + moon_table['next_full_moon'] = ephem.localtime(ephem.next_full_moon(obs.date)).strftime('%Y-%m-%d %H:%M:%S') + moon_table['next_new_moon'] = ephem.localtime(ephem.next_new_moon(obs.date)).strftime('%Y-%m-%d %H:%M:%S') + + moon_data = f"Moon Rise:" + moon_table['rise_time'] + " Set:" + moon_table['set_time'] + "\nMoon Phase:" \ + + moon_table['phase'] + " @:" + str('{0:.2f}'.format(moon_table['illumination'])) + "%" + "\nMoon Azimuth:" + str(moon_table['azimuth']) \ + + "\nMoon Altitude:" + str(moon_table['altitude']) + "\nMoon Direction:" + moon_table['direction'] \ + + "\nNext Full Moon:" + moon_table['next_full_moon'] + "\nNext New Moon:" + moon_table['next_new_moon'] + + return moon_data \ No newline at end of file