def get_phase_name(location: Optional[ephem.Observer] = None, wiggle_room: float = 1.5) -> str:
"""Return name of the phase of the moon."""
if location:
date = location.date
else:
date = ephem.now()
if abs(ephem.next_first_quarter_moon(date) - date) < wiggle_room or \
abs(ephem.previous_first_quarter_moon(date) - date) < wiggle_room:
return 'first quarter moon'
elif abs(ephem.next_full_moon(date) - date) < wiggle_room or \
abs(ephem.previous_full_moon(date) - date) < wiggle_room:
return 'full moon'
elif abs(ephem.next_last_quarter_moon(date) - date) < wiggle_room or \
abs(ephem.previous_last_quarter_moon(date) - date) < wiggle_room:
return 'last quarter moon'
elif abs(ephem.next_new_moon(date) - date) < wiggle_room or \
abs(ephem.previous_new_moon(date) - date) < wiggle_room:
return 'new moon'
elif ephem.next_first_quarter_moon(date) - ephem.previous_new_moon(date) < 29:
return 'waxing crescent'
elif ephem.next_full_moon(date) - ephem.previous_first_quarter_moon(date) < 29:
return 'waxing gibbous'
elif ephem.next_last_quarter_moon(date) - ephem.previous_full_moon(date) < 29:
return 'waning gibbous'
elif ephem.next_new_moon(date) - ephem.previous_last_quarter_moon(date) < 29:
return 'waning crescent'
return ''
def get_moon_phase(observer):
target_date_utc = observer.date
target_date_local = ephem.localtime(target_date_utc).date()
next_full = ephem.localtime(ephem.next_full_moon(target_date_utc)).date()
next_new = ephem.localtime(ephem.next_new_moon(target_date_utc)).date()
next_last_quarter = ephem.localtime(
ephem.next_last_quarter_moon(target_date_utc)).date()
next_first_quarter = ephem.localtime(
ephem.next_first_quarter_moon(target_date_utc)).date()
previous_full = ephem.localtime(
ephem.previous_full_moon(target_date_utc)).date()
previous_new = ephem.localtime(
ephem.previous_new_moon(target_date_utc)).date()
previous_last_quarter = ephem.localtime(
ephem.previous_last_quarter_moon(target_date_utc)).date()
previous_first_quarter = ephem.localtime(
ephem.previous_first_quarter_moon(target_date_utc)).date()
if target_date_local in (next_full, previous_full):
return 'Full'
elif target_date_local in (next_new, previous_new):
return 'New'
elif target_date_local in (next_first_quarter, previous_first_quarter):
return 'First Quarter'
elif target_date_local in (next_last_quarter, previous_last_quarter):
return 'Last Quarter'
elif previous_new < next_first_quarter < next_full < next_last_quarter < next_new:
return 'Waxing Crescent'
elif previous_first_quarter < next_full < next_last_quarter < next_new < next_first_quarter:
return 'Waxing Gibbous'
elif previous_full < next_last_quarter < next_new < next_first_quarter < next_full:
return 'Waning Gibbous'
elif previous_last_quarter < next_new < next_first_quarter < next_full < next_last_quarter:
return 'Waning Crescent'
def __init__(self):
self.__logger = logging.getLogger(self.__class__.__name__)
#find current moon phase
now = ephem.now()
new_date = ephem.next_new_moon(now)
first_quarter_date = ephem.next_first_quarter_moon(now)
full_date = ephem.next_full_moon(now)
last_quarter_date = ephem.next_last_quarter_moon(now)
delta = float('inf')
if new_date - now < delta:
delta = new_date - now
self.__current_phase = MoonUpdater.LAST_QUARTER_MOON
self.__current_phase_date = ephem.previous_last_quarter_moon(
now).datetime()
if first_quarter_date - now < delta:
delta = first_quarter_date - now
self.__current_phase = MoonUpdater.NEW_MOON
self.__current_phase_date = ephem.previous_new_moon(now).datetime()
if full_date - now < delta:
delta = full_date - now
self.__current_phase = MoonUpdater.FIRST_QUARTER_MOON
self.__current_phase_date = ephem.previous_first_quarter_moon(
now).datetime()
if last_quarter_date - now < delta:
delta = last_quarter_date - now
self.__current_phase = MoonUpdater.FULL_MOON
self.__current_phase_date = ephem.previous_full_moon(
now).datetime()
def make_moon_stuff(outer_canv, inner_canv, begin_day, no_days, chart,
obs):
small_moon_rad = 0.12
large_moon_rad = 0.16
moon = ephem.Moon()
moon2 = ephem.Moon()
for doy in range(no_days) :
obs.date = begin_day + doy
mpc = obs.date + 0.5 # moon phase check
moon_set = obs.next_setting(moon)
moon2.compute(moon_set)
X = moon2.moon_phase
# Waxing moon (moonsets)
x, y = to_chart_coord(moon_set, chart)
if (fabs(ephem.next_full_moon(mpc) - mpc) < 0.5 or
fabs(ephem.previous_full_moon(mpc) - mpc) < 0.5) :
# full moon
outer_canv.stroke(path.circle(x,y,large_moon_rad),[mooncolorlight,pyx.deco.filled([mooncolorlight])])
elif ((X < 0.55 and X > 0.45) or
fabs(ephem.next_first_quarter_moon(mpc) - mpc) < 0.5 or
fabs(ephem.previous_first_quarter_moon(mpc) - mpc) < 0.5) :
# first quarter
outer_canv.stroke(first_quarter_moon(large_moon_rad, x,y),[mooncolordark,pyx.deco.filled([mooncolordark])])
elif (fabs(ephem.next_new_moon(mpc) - mpc) < 0.5 or
fabs(ephem.previous_new_moon(mpc) - mpc) < 0.5):
# new moon
outer_canv.stroke(path.circle(x,y,large_moon_rad),[mooncolorlight,pyx.deco.filled([mooncolordark])])
else :
inner_canv.fill(waxing_moon(X, small_moon_rad, x, y),
[style.linejoin.bevel,mooncolordark])
# Waning moon (moonrises)
moon_rise = obs.next_rising(moon)
moon2.compute(moon_rise)
X = moon2.moon_phase
x, y = to_chart_coord(moon_rise, chart)
if (fabs(ephem.next_full_moon(mpc) - mpc) < 0.5 or
fabs(ephem.previous_full_moon(mpc) - mpc) < 0.5) :
# full moon
outer_canv.stroke(path.circle(x,y,large_moon_rad),[mooncolorlight,pyx.deco.filled([mooncolorlight])])
elif ((X < 0.55 and X > 0.45) or
fabs(ephem.next_last_quarter_moon(mpc) - mpc) < 0.5 or
fabs(ephem.previous_last_quarter_moon(mpc) - mpc) < 0.5) :
# last quarter
outer_canv.stroke(last_quarter_moon(large_moon_rad, x,y),[mooncolorlight,pyx.deco.filled([mooncolorlight])])
elif (fabs(ephem.next_new_moon(mpc) - mpc) < 0.5 or
fabs(ephem.previous_new_moon(mpc) - mpc) < 0.5):
# new moon
outer_canv.stroke(path.circle(x,y,large_moon_rad),[mooncolorlight,pyx.deco.filled([mooncolordark])])
else :
inner_canv.fill(waning_moon(X, small_moon_rad, x, y),
[style.linejoin.bevel,mooncolorlight])
def new_moon(bot, update):
dfu = update.message.text
moon = {
"Предыдущий цикл": {
"Последняя четверть луны": ephem.previous_last_quarter_moon(dfu),
"Новолуние": ephem.previous_new_moon(dfu),
"Первая четверть луны": ephem.previous_first_quarter_moon(dfu),
"Полнолуние": ephem.previous_full_moon(dfu),
},
"Следующий цикл": {
"Последняя четверть луны": ephem.next_last_quarter_moon(dfu),
"Новолуние": ephem.next_new_moon(dfu),
"Первая четверть луны": ephem.next_first_quarter_moon(dfu),
"Полнолуние": ephem.next_full_moon(dfu),
}
}
for key in moon:
bot.sendMessage(update.message.chat_id, text=key)
for row_key in moon[key]:
bot.sendMessage(update.message.chat_id,
text=(row_key, ":", moon[key][row_key]))
def main():
sun = ephem.Sun()
moon = ephem.Moon()
# define observer
home = ephem.Observer()
home.date = ephem.date(datetime.utcnow())
home.lat, home.lon = '50.46', '9.61'
sun.compute(home)
sunrise, sunset = (home.next_rising(sun),
home.next_setting(sun))
moon.compute(home)
moonrise, moonset = (home.next_rising(moon),
home.next_setting(moon))
home.horizon = '-6'
m6_start, m6_end = (home.next_rising(sun, use_center=True),
home.next_setting(sun, use_center=True))
home.horizon = '-12'
m12_start, m12_end = (home.next_rising(sun, use_center=True),
home.next_setting(sun, use_center=True))
home.horizon = '-18'
m18_start, m18_end = (home.next_rising(sun, use_center=True),
home.next_setting(sun, use_center=True))
print home.date
e = {}
e[sunrise] = " Sunrise: "
e[sunset] = " Sunset: "
e[moonrise] = " Moonrise: "
e[moonset] = " Moonset: "
e[m6_start] = " Civil twilight starts: "
e[m6_end] = " Civil twilight ends: "
e[m12_start] = " Nautical twilight starts: "
e[m12_end] = " Nautical twilight ends: "
e[m18_start] = " Astronomical twilight starts: "
e[m18_end] = " Astronomical twilight ends: "
for time in sorted(e.keys()):
print e[time], ephem.localtime(time).ctime()
# Here start the moon specific data
print " ---"
print " Moon phase: %d%% " % moon.phase
e = {}
e1 = ephem.previous_new_moon(home.date)
e[e1] = " Previous new moon: "
e1 = ephem.previous_first_quarter_moon(home.date)
e[e1] = " Previous first quarter moon: "
e1 = ephem.previous_full_moon(home.date)
e[e1] = " Previous full moon: "
e1 = ephem.previous_last_quarter_moon(home.date)
e[e1] = " Previous last quarter moon: "
e1 = ephem.next_new_moon(home.date)
e[e1] = " Next new moon: "
e1 = ephem.next_first_quarter_moon(home.date)
e[e1] = " Next first quarter moon: "
e1 = ephem.next_full_moon(home.date)
e[e1] = " Next full moon: "
e1 = ephem.next_last_quarter_moon(home.date)
e[e1] = " Next last quarter moon: "
for time in sorted(e.keys()):
print e[time], ephem.localtime(time).ctime()
#!/usr/bin/env python # -*- coding: utf-8 -*- from datetime import datetime import ephem now = datetime.now() #Past Moon phases d5 = ephem.previous_new_moon(now) d6 = ephem.previous_first_quarter_moon(now) d7 = ephem.previous_full_moon(now) d8 = ephem.previous_last_quarter_moon(now) print print (d5), " | Previous new Moon" print (d6), " | Previous quarter Moon" print (d7), " | Previous full Moon" print (d8), " | Previous last quarter Moon" print #Next Moon phases d1 = ephem.next_full_moon(now) d2 = ephem.next_new_moon(now) d3 = ephem.next_first_quarter_moon(now) d4 = ephem.next_last_quarter_moon(now) print (d2), " | Next new Moon" print (d3), " | Next quarter Moon" print (d1), " | Next full Moon" print (d4), " | Next last quarter Moon" print m=ephem.Moon(now)
data['sun']['altitude'] = sun.alt data['sun']['azimuth'] = sun.az # MOON DATA moonrise = observer.previous_rising(ephem.Moon()) moonnoon = observer.next_transit (ephem.Moon()) moonset = observer.next_setting (ephem.Moon()) data['moon']['rise'] = calendar.timegm(moonrise.datetime().utctimetuple()) data['moon']['noon'] = calendar.timegm(moonnoon.datetime().utctimetuple()) data['moon']['set'] = calendar.timegm(moonset.datetime().utctimetuple()) data['moon']['radius'] = ephem.moon_radius previous_new_moon = ephem.previous_new_moon(time) next_new_moon = ephem.next_new_moon(time) previous_first_quarter_moon = ephem.previous_first_quarter_moon(time) next_first_quarter_moon = ephem.next_first_quarter_moon(time) previous_full_moon = ephem.previous_full_moon(time) next_full_moon = ephem.next_full_moon(time) previous_last_quarter_moon = ephem.previous_last_quarter_moon(time) next_last_quarter_moon = ephem.next_last_quarter_moon(time) data['moon']['previous_new_moon'] = calendar.timegm(previous_new_moon.datetime().utctimetuple()) data['moon']['next_new_moon'] = calendar.timegm(next_new_moon.datetime().utctimetuple()) data['moon']['previous_first_quarter_moon'] = calendar.timegm(previous_first_quarter_moon.datetime().utctimetuple()) data['moon']['next_first_quarter_moon'] = calendar.timegm(next_first_quarter_moon.datetime().utctimetuple()) data['moon']['previous_full_moon'] = calendar.timegm(previous_full_moon.datetime().utctimetuple()) data['moon']['next_full_moon'] = calendar.timegm(next_full_moon.datetime().utctimetuple()) data['moon']['previous_last_quarter_moon'] = calendar.timegm(previous_last_quarter_moon.datetime().utctimetuple()) data['moon']['next_last_quarter_moon'] = calendar.timegm(next_last_quarter_moon.datetime().utctimetuple())
def onHeartbeat(self):
Domoticz.Debug("onHeartbeat")
self.__runAgain -= 1
if self.__runAgain <= 0:
self.__runAgain = self.__HEARTBEATS2MIN * self.__MINUTES
#
utc_now = datetime.datetime.utcnow()
target_date = datetime.datetime.now().date()
#
self.__observer.date = utc_now
self.__sun.compute(self.__observer)
#
################################################################################
# Sun data
################################################################################
#
# -------------------------------------------------------------------------------
# Sun altitude
# -------------------------------------------------------------------------------
value = round(deg(self.__sun.alt), 2)
UpdateDevice(unit.SUN_ALT, int(value), str(value))
#
# -------------------------------------------------------------------------------
# Sun azimuth
# -------------------------------------------------------------------------------
value = round(deg(self.__sun.az), 2)
UpdateDevice(unit.SUN_AZ, int(value), str(value))
#
# -------------------------------------------------------------------------------
# Sun distance
# -------------------------------------------------------------------------------
value = round(self.__sun.earth_distance * ephem.meters_per_au / 1000)
UpdateDevice(unit.SUN_DIST, int(value), str(value))
#
# -------------------------------------------------------------------------------
# Sun transit
# -------------------------------------------------------------------------------
value = (
ephem.localtime(self.__observer.next_transit(self.__sun)) + self.__SEC30
)
UpdateDevice(
unit.SUN_TRANSIT, 0, "{}".format(value.strftime(self.__DT_FORMAT))
)
#
# -------------------------------------------------------------------------------
# Sun rise & set today
# -------------------------------------------------------------------------------
self.__observer.date = target_date
self.__sun.compute(self.__observer)
i = 0
for t in self.__TWILIGHTS:
# Zero the horizon
self.__observer.horizon = t[0]
try:
next_rising = (
ephem.localtime(
self.__observer.next_rising(self.__sun, use_center=t[1])
)
+ self.__SEC30
)
UpdateDevice(
unit.SUN_RISE + i,
0,
"{}".format(next_rising.strftime(self.__DT_FORMAT)),
)
except:
UpdateDevice(
unit.SUN_RISE + i,
0,
"{}".format("No time available"),
)
try:
next_setting = (
ephem.localtime(
self.__observer.next_setting(self.__sun, use_center=t[1])
)
+ self.__SEC30
)
UpdateDevice(
unit.SUN_SET + i,
0,
"{}".format(next_setting.strftime(self.__DT_FORMAT)),
)
except:
UpdateDevice(
unit.SUN_RISE + i,
0,
"{}".format("No time available"),
)
if i == 0:
value = (next_setting - next_rising).total_seconds()
hh = divmod(value, 3600)
mm = divmod(hh[1], 60)
min = int(divmod(value, 60)[0])
UpdateDevice(
unit.DAY_LENGTH_M,
min,
"{}".format(min),
)
UpdateDevice(
unit.DAY_LENGTH_T,
0,
"{:02}:{:02}".format(int(hh[0]), int(mm[0])),
)
i += 1
#
# Reset horizon for further calculations
self.__observer.horizon = "0"
#
################################################################################
# Moon data
################################################################################
#
self.__observer.date = utc_now
self.__moon.compute(self.__observer)
#
# -------------------------------------------------------------------------------
# Moon rise
# -------------------------------------------------------------------------------
value = (
ephem.localtime(self.__observer.next_rising(self.__moon)) + self.__SEC30
)
UpdateDevice(
unit.MOON_RISE, 0, "{}".format(value.strftime(self.__DT_FORMAT))
)
#
# -------------------------------------------------------------------------------
# Moon set
# -------------------------------------------------------------------------------
value = (
ephem.localtime(self.__observer.next_setting(self.__moon))
+ self.__SEC30
)
UpdateDevice(
unit.MOON_SET, 0, "{}".format(value.strftime(self.__DT_FORMAT))
)
#
# -------------------------------------------------------------------------------
# Moon altitude
# -------------------------------------------------------------------------------
self.__moon.compute(self.__observer)
#
value = round(deg(self.__moon.alt), 2)
UpdateDevice(unit.MOON_ALT, int(value), str(value))
#
# -------------------------------------------------------------------------------
# Moon azimuth
# -------------------------------------------------------------------------------
value = round(deg(self.__moon.az), 2)
UpdateDevice(unit.MOON_AZ, int(value), str(value))
#
# -------------------------------------------------------------------------------
# Moon distance
# -------------------------------------------------------------------------------
value = round(self.__moon.earth_distance * ephem.meters_per_au / 1000)
UpdateDevice(unit.MOON_DIST, int(value), str(value))
#
# -------------------------------------------------------------------------------
# Next new moon
# -------------------------------------------------------------------------------
next_new = ephem.localtime(ephem.next_new_moon(utc_now))
value = next_new + self.__SEC30
UpdateDevice(
unit.MOON_NEXT_NEW, 0, "{}".format(value.strftime(self.__DT_FORMAT))
)
#
# -------------------------------------------------------------------------------
# Next first quarter
# -------------------------------------------------------------------------------
next_first_quarter = ephem.localtime(ephem.next_first_quarter_moon(utc_now))
value = next_first_quarter + self.__SEC30
UpdateDevice(
unit.MOON_NEXT_FIRST_QUARTER,
0,
"{}".format(value.strftime(self.__DT_FORMAT)),
)
#
# -------------------------------------------------------------------------------
# Next full moon
# -------------------------------------------------------------------------------
next_full = ephem.localtime(ephem.next_full_moon(utc_now))
value = next_full + self.__SEC30
UpdateDevice(
unit.MOON_NEXT_FULL,
0,
"{}".format(value.strftime(self.__DT_FORMAT)),
)
#
# -------------------------------------------------------------------------------
# Next last quarter
# -------------------------------------------------------------------------------
next_last_quarter = ephem.localtime(ephem.next_last_quarter_moon(utc_now))
value = next_last_quarter + self.__SEC30
UpdateDevice(
unit.MOON_NEXT_LAST_QUARTER,
0,
"{}".format(value.strftime(self.__DT_FORMAT)),
)
#
# -------------------------------------------------------------------------------
# Moon phase
# -------------------------------------------------------------------------------
next_full = next_full.date()
next_new = next_new.date()
next_last_quarter = next_last_quarter.date()
next_first_quarter = next_first_quarter.date()
previous_full = ephem.localtime(ephem.previous_full_moon(utc_now)).date()
previous_new = ephem.localtime(ephem.previous_new_moon(utc_now)).date()
previous_last_quarter = ephem.localtime(
ephem.previous_last_quarter_moon(utc_now)
).date()
previous_first_quarter = ephem.localtime(
ephem.previous_first_quarter_moon(utc_now)
).date()
#
# Domoticz.Debug("target_date: {}".format(target_date))
# Domoticz.Debug("next_full: {}".format(next_full))
# Domoticz.Debug("next_new: {}".format(next_new))
# Domoticz.Debug("next_last_quarter: {}".format(next_last_quarter))
# Domoticz.Debug("next_first_quarter: {}".format(next_first_quarter))
# Domoticz.Debug("previous_full: {}".format(previous_full))
# Domoticz.Debug("previous_new: {}".format(previous_new))
# Domoticz.Debug("previous_last_quarter: {}".format(previous_last_quarter))
# Domoticz.Debug("previous_first_quarter: {}".format(previous_first_quarter))
if target_date in (next_new, previous_new):
phase = 0
elif target_date in (next_first_quarter, previous_first_quarter):
phase = 2
elif target_date in (next_full, previous_full):
phase = 4
elif target_date in (next_last_quarter, previous_last_quarter):
phase = 6
elif (
previous_new
< next_first_quarter
< next_full
< next_last_quarter
< next_new
):
phase = 1
elif (
previous_first_quarter
< next_full
< next_last_quarter
< next_new
< next_first_quarter
):
phase = 3
elif (
previous_full
< next_last_quarter
< next_new
< next_first_quarter
< next_full
):
phase = 5
elif (
previous_last_quarter
< next_new
< next_first_quarter
< next_full
< next_last_quarter
):
phase = 7
else:
phase = 4
UpdateDevice(unit.MOON_PHASE, 0, self.__MOON_PHASE_DESCRIPTIONS[phase])
UpdateDeviceImage(
unit.MOON_PHASE, images.PREFIX_IMAGE + images.PREFIX_PHASE + str(phase)
)
#
self.__moon.compute(self.__observer)
#
# -------------------------------------------------------------------------------
# Moon illumination
# -------------------------------------------------------------------------------
value = round(deg(self.__moon.moon_phase), 2)
UpdateDevice(unit.MOON_ILLUMINATION, int(value), str(value))
UpdateDeviceImage(
unit.MOON_ILLUMINATION,
images.PREFIX_IMAGE + images.PREFIX_PHASE + str(phase),
)
#
else:
Domoticz.Debug(
"onHeartbeat called, run again in {} heartbeats.".format(
self.__runAgain
)
)
sunset = observer.next_setting (ephem.Sun()) #Sunset
data['sunrise'] = str(ephem.localtime(sunrise))
data['noon'] = str(ephem.localtime(noon))
data['sunset'] = str(ephem.localtime(sunset))
# observer.horizon = '-6' # civil twilight
# civilian_twilight_start = observer.previous_rising(ephem.Sun())
# civilian_twilight_end = observer.next_setting(ephem.Sun())
# observer.horizon = '-12' # nautical twilight
# nautical_twilight_start = observer.previous_rising(ephem.Sun())
# nautical_twilight_end = observer.next_setting(ephem.Sun())
# observer.horizon = '-18' # astronomical twilight
# astronomical_twilight_start = observer.previous_rising(ephem.Sun())
# astronomical_twilight_end = observer.next_setting(ephem.Sun())
data['moon'] = {}
data['moon']['radius'] = ephem.moon_radius
data['moon']['previous_new_moon'] = str(ephem.localtime(ephem.previous_new_moon(time)))
data['moon']['next_new_moon'] = str(ephem.localtime(ephem.next_new_moon(time)))
data['moon']['previous_first_quarter_moon'] = str(ephem.localtime(ephem.previous_first_quarter_moon(time)))
data['moon']['next_first_quarter_moon'] = str(ephem.localtime(ephem.next_first_quarter_moon(time)))
data['moon']['previous_full_moon'] = str(ephem.localtime(ephem.previous_full_moon(time)))
data['moon']['next_full_moon'] = str(ephem.localtime(ephem.next_full_moon(time)))
data['moon']['previous_last_quarter_moon'] = str(ephem.localtime(ephem.previous_last_quarter_moon(time)))
data['moon']['next_last_quarter_moon'] = str(ephem.localtime(ephem.next_last_quarter_moon(time)))
print json.dumps(data)
print "\n*** Lunar Phase information: ***"
prev_new = ephem.previous_new_moon(now)
next_new = ephem.next_new_moon(now)
next_first = ephem.next_first_quarter_moon(now)
next_full = ephem.next_full_moon(now)
next_last = ephem.next_last_quarter_moon(now)
phase = m.moon_phase
lunation = (now-prev_new)/(next_new-prev_new)
# Elaborate on most recent lunar phase
print "Current lunar illumination is {:0.1f}%, lunation is {:0.4f}".format(phase*100,lunation)
if lunation < 0.25:
print "Was just New Moon at {} UT".format(fmt_date(ephem.previous_new_moon(now)))
elif lunation < 0.5:
print "Was just First Quarter at {} UT".format(fmt_date(ephem.previous_first_quarter_moon(now)))
elif lunation < 0.75:
print "Was just Full Moon at {} UT".format(fmt_date(ephem.previous_full_moon(now)))
else:
print "Was just Last Quarter at {} UT".format(fmt_date(ephem.previous_last_quarter_moon(now)))
print "New Moon : {} UT ({} Local time)".format(
fmt_date(next_new),fmt_fulldatetime(ephem.localtime(next_new)))
print "First Quarter: {} UT ({} Local time)".format(
fmt_date(next_first),fmt_fulldatetime(ephem.localtime(next_first)))
print "Full Moon : {} UT ({} Local time)".format(
fmt_date(next_full),fmt_fulldatetime(ephem.localtime(next_full)))
print "Last Quarter : {} UT ({} Local time)".format(
fmt_date(next_last),fmt_fulldatetime(ephem.localtime(next_last)))
print "\n*** Planets ***"
# -*- coding: utf-8 -*-
"""
Created on Sat Jun 13 14:07:43 2020
https://rhodesmill.org/pyephem/quick.html#phases-of-the-moon
@author: PC
"""
import ephem
d1 = ephem.next_full_moon('1984')
print(d1)
d2 = ephem.next_new_moon(d1)
print(d2)
print(ephem.previous_new_moon('2020'))
print(ephem.next_new_moon('2020'))
print(ephem.previous_first_quarter_moon('2020'))
print(ephem.next_first_quarter_moon('2020'))
print(ephem.previous_full_moon('2020'))
print(ephem.next_full_moon('2020'))
print(ephem.previous_last_quarter_moon('2020'))
print(ephem.next_last_quarter_moon('2020'))
import ephem
while True:
user_answer = (input("date: ").lower())
moon = {
"Предыдущий цикл": {
"Последняя четверть луны":
ephem.previous_last_quarter_moon(user_answer),
"Новолуние":
ephem.previous_new_moon(user_answer),
"Первая четверть луны":
ephem.previous_first_quarter_moon(user_answer),
"Полнолуние":
ephem.previous_full_moon(user_answer),
},
"Следующий цикл": {
"Последняя четверть луны":
ephem.next_last_quarter_moon(user_answer),
"Новолуние": ephem.next_new_moon(user_answer),
"Первая четверть луны": ephem.next_first_quarter_moon(user_answer),
"Полнолуние": ephem.next_full_moon(user_answer),
}
}
for key in moon:
print(key)
for row_key in moon[key]:
print(row_key, ":", moon[key][row_key])
if user_answer == "exit":
