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# -*- python -*-
'''
xpybar – xmobar replacement written in python
Copyright © 2014, 2015, 2016, 2017 Mattias Andrée (maandree@member.fsf.org)
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
'''
import solar_python
class Solar:
'''
Solar information
'''
SOLAR_ELEVATION_SUNSET_SUNRISE = solar_python.SOLAR_ELEVATION_SUNSET_SUNRISE
'''
:float The Sun's elevation at sunset and sunrise,
measured in degrees
'''
SOLAR_ELEVATION_CIVIL_DUSK_DAWN = solar_python.SOLAR_ELEVATION_CIVIL_DUSK_DAWN
'''
:float The Sun's elevation at civil dusk and civil
dawn, measured in degrees
'''
SOLAR_ELEVATION_NAUTICAL_DUSK_DAWN = solar_python.SOLAR_ELEVATION_NAUTICAL_DUSK_DAWN
'''
:float The Sun's elevation at nautical dusk and
nautical dawn, measured in degrees
'''
SOLAR_ELEVATION_ASTRONOMICAL_DUSK_DAWN = solar_python.SOLAR_ELEVATION_ASTRONOMICAL_DUSK_DAWN
'''
:float The Sun's elevation at astronomical dusk
and astronomical dawn, measured in degrees
'''
SOLAR_ELEVATION_AMATEUR_ASTRONOMICAL_DUSK_DAWN = solar_python.SOLAR_ELEVATION_AMATEUR_ASTRONOMICAL_DUSK_DAWN
'''
:float The Sun's elevation at amateur astronomical dusk
and amateur astronomical dawn, measured in degrees
'''
SOLAR_ELEVATION_RANGE_TWILIGHT = solar_python.SOLAR_ELEVATION_RANGE_TWILIGHT
'''
:(float, float) The Sun's lowest and highest elevation during
all periods of twilight, measured in degrees
'''
SOLAR_ELEVATION_RANGE_CIVIL_TWILIGHT = solar_python.SOLAR_ELEVATION_RANGE_CIVIL_TWILIGHT
'''
:(float, float) The Sun's lowest and highest elevation
during civil twilight, measured in degrees
'''
SOLAR_ELEVATION_RANGE_NAUTICAL_TWILIGHT = solar_python.SOLAR_ELEVATION_RANGE_NAUTICAL_TWILIGHT
'''
:(float, float) The Sun's lowest and highest elevation
during nautical twilight, measured in degrees
'''
SOLAR_ELEVATION_RANGE_ASTRONOMICAL_TWILIGHT = solar_python.SOLAR_ELEVATION_RANGE_ASTRONOMICAL_TWILIGHT
'''
:(float, float) The Sun's lowest and highest elevation during
astronomical twilight, measured in degrees
'''
SOLAR_ELEVATION_RANGE_AMATEUR_ASTRONOMICAL_TWILIGHT = solar_python.SOLAR_ELEVATION_RANGE_AMATEUR_ASTRONOMICAL_TWILIGHT
'''
:(float, float) The Sun's lowest and highest elevation during
amateur astronomical twilight, measured in degrees
'''
SOLAR_ELEVATION_RANGE_GOLDEN_HOUR = solar_python.SOLAR_ELEVATION_RANGE_GOLDEN_HOUR
'''
:(float, float) The Sun's lowest and highest elevation during
the golden "hour" (also known as magic hour),
measured in degrees. These elevations are
approximate.
'''
SOLAR_ELEVATION_RANGE_BLUE_HOUR = solar_python.SOLAR_ELEVATION_RANGE_BLUE_HOUR
'''
:(float, float) The Sun's lowest and highest elevation during
the blue "hour", measured in degrees. These
elevations are approximate.
'''
EQUINOX = 0
SUMMER = 1
WINTER = 2
def __init__(self, latitude, longitude, t = None):
'''
Constructor
@param latitude:float The latitude in degrees northwards from
the equator, negative for southwards
@param longitude:float The longitude in degrees eastwards from
Greenwich, negative for westwards
@param t:float? The time in Julian Centuries, `None`
for the current time of when the functions
are called
'''
self.lat = latitude
self.lon = longitude
self.t = t
self.u = solar_python.julian_centuries_to_epoch
def now(self):
return solar_python.julian_centuries() if self.t is None else self.t
def season(self):
t = self.now()
rc = Solar.SUMMER + solar_python.is_summer(self.lat, t)
rc += Solar.WINTER + solar_python.is_winter(self.lat, t)
return rc % 3
def have_sunrise_and_sunset(self):
'''
Determine whether solar declination currently is
so that there can be sunrises and sunsets. If not,
you either have 24-hour daytime or 24-hour nighttime.
@return Whether there can be sunrises and sunsets where you are located
'''
return solar_python.have_sunrise_and_sunset(self.lat, self.now())
def declination(self):
'''
Calculates the Sun's declination
@return :float The Sun's declination, in degrees
'''
return solar_python.degrees(solar_python.solar_declination(self.now()))
def elevation(self):
'''
Calculates the Sun's elevation as apparent
from a geographical position
@return :float The Sun's apparent at the specified time
as seen from the specified position,
measured in degrees
'''
return solar_python.solar_elevation(self.lat, self.lon, self.now())
def future_equinox(self):
'''
Predict the time point of the next equinox
@return :float The calculated time point, in POSIX time
'''
return self.u(solar_python.future_equinox(self.now()))
def past_equinox(self):
'''
Predict the time point of the previous equinox
@return :float The calculated time point, in POSIX time
'''
return self.u(solar_python.past_equinox(self.now()))
def future_solstice(self):
'''
Predict the time point of the next solstice
@return :float The calculated time point, in POSIX time
'''
return self.u(solar_python.future_solstice(self.now()))
def past_solstice(self):
'''
Predict the time point of the previous solstice
@return :float The calculated time point, in POSIX time
'''
return self.u(solar_python.past_solstice(self.now()))
def future_elevation(self, elevation):
'''
Predict the time point of the next time the
Sun reaches a specific elevation
@param elevation:float The elevation of interest
@return :float? The calculated time point, in POSIX time,
`None` if none were found within a year
'''
return self.u(solar_python.future_elevation(self.lat, self.lon, elevation, self.now()))
def past_elevation(self, elevation):
'''
Predict the time point of the previous time the Sun
reached a specific elevation
@param elevation:float The elevation of interest
@return :float? The calculated time point, in POSIX time,
`None` if none were found within a year
'''
return self.u(solar_python.past_elevation(self.lat, self.lon, elevation, self.now()))
def future_elevation_derivative(self, derivative):
'''
Predict the time point of the next time the
Sun reaches a specific elevation derivative
@param derivative:float The elevation derivative value of interest
@return :float? The calculated time point, in POSIX time,
`None` if none were found within a year
'''
return self.u(solar_python.future_elevation_derivative(self.lat, self.lon, derivative, self.now()))
def past_elevation_derivative(self, derivative):
'''
Predict the time point of the previous time
the Sun reached a specific elevation derivative
@param derivative:float The elevation derivative value of interest
@return :float? The calculated time point, in POSIX time,
`None` if none were found within a year
'''
return self.u(solar_python.past_elevation_derivative(self.lat, self.lon, derivative, self.now()))
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