def __init__(self):
try:
project_infos = get_project_settings()
self.eof = EphemObserverFactory()
try:
self.obs = self.eof.create_observer(
longitude=project_infos[0][1],
latitude=project_infos[0][0],
elevation=project_infos[1][0])
now_datetime = datetime.utcnow()
self.obs.date = ephem.date(now_datetime)
sun = ephem.Sun(self.obs)
moon = ephem.Moon(self.obs)
frac = moon.moon_phase
sun_alt = ephem.degrees(sun.alt)
moon_alt = ephem.degrees(moon.alt)
self.sun_elevation = "{:.2f}".format(
float(math.degrees(sun_alt)))
self.moon_elevation = "{:.2f}".format(
float(math.degrees(moon_alt)))
self.moon_phase = "{0:.2f}".format(frac * 100)
except Exception as e:
print("ephem update -> {}".format(e))
except Exception as e:
print("run append_camera_settings() -> {}".format(e))
def __init__(self):
super(EphemerisShooter, self).__init__()
self.ObserverFactory = EphemObserverFactory()
# self.continuousShooterThread = ContinuousShooterThread(int(info_cam[4]))
self.continuousShooterThread = ContinuousShooterThread(0)
self.console = ConsoleThreadOutput()
self.config = ConfigProject()
info = self.config.get_geographic_settings()
info_sun = self.config.get_moonsun_settings()
self.latitude = info[0] # '-45.51'
self.longitude = info[1] # '-23.12'
self.elevation = info[2] # 350
self.max_solar_elevation = info_sun[0] # -12
self.ignore_lunar_position = info_sun[1]
self.max_lunar_elevation = info_sun[2] # 8
self.max_lunar_phase = info_sun[3] # 1
self.wait_temperature = False
self.shootOn = False
self.controller = True
self.count = 1
def __init__(self):
super(QThreadSunMoon, self).__init__()
self.eof = EphemObserverFactory()
self.latitude = None
self.longitude = None
self.elevation = None
self.config = None
self.obs = None
def __init__(self):
super(SThread, self).__init__()
self.prefix = None
self.exposure_time = None
self.binning = None
self.get_level1 = None
self.get_level2 = None
self.get_axis_xi = None
self.get_axis_xf = None
self.get_axis_yi = None
self.get_axis_yf = None
self.get_ignore_crop = None
self.console = ConsoleThreadOutput()
self.get_image_tif = None
self.get_image_fit = None
self.get_image_png = None
self.temperatura = None
self.eof = EphemObserverFactory()
self.obs = None
self.path = None
self.tempo = None
self.info_matrix = None
self.img = None
self.new_image_name = None
self.selected_filter = None
self.dark_or_open = "Closed"
self.one_photo = None
self.for_headers_dic = {}
self.lock = Locker()
self.info_matrix = []
self.filter_split_label = None
self.count_aux = 0
self.kwargs = None
self.message_console_one_photo = None
self.roda_filtros = FilterControl()
def __init__(self):
super(EphemerisShooter, self).__init__()
self.camconfig = SettingsCamera()
self.camconfig.setup_settings()
infocam = self.camconfig.get_camera_settings()
self.ObserverFactory = EphemObserverFactory()
self.continuousShooterThread = ContinuousShooterThread(int(infocam[4]))
self.console = ConsoleThreadOutput()
self.config = ConfigProject()
info = self.config.get_geographic_settings()
infosun = self.config.get_moonsun_settings()
self.latitude = info[0] # '-45.51'
self.longitude = info[1] # '-23.12'
self.elevation = info[2] # 350
self.max_solar_elevation = infosun[0] # -12
self.ignore_lunar_position = infosun[1]
self.max_lunar_elevation = infosun[2] # 8
self.max_lunar_phase = infosun[3] # 1
self.t = False
print(int(infocam[4]))
try:
self.s = int(infocam[4])
self.continuousShooterThread.set_sleep_time(self.s)
except Exception as e:
self.s = 5
self.shootOn = False
self.controller = True
self.count = 1
class QThreadSunMoon(QtCore.QThread):
signal_update_sun_moon = QtCore.pyqtSignal([list],
name="signalUpdateSunMoon")
def __init__(self):
super(QThreadSunMoon, self).__init__()
self.eof = EphemObserverFactory()
self.latitude = None
self.longitude = None
self.elevation = None
self.config = None
self.obs = None
def get_info(self):
# Criando uma instância do ConfigProject
self.config = ConfigProject()
# Recebendo as informações
info = self.config.get_geographic_settings()
# Atribuindo valor as variáveis de geolocalização
self.latitude = info[0] # '-45.51'
self.longitude = info[1] # '-23.12'
self.elevation = info[2] # 350
def set_observer(self, longitude, latitude, elevation):
""" Essa função cria um Observatório do PyEphem para utilizar nos cálculos """
self.obs = self.eof.create_observer(longitude=longitude,
latitude=latitude,
elevation=elevation)
def run(self):
# Pegando as informações
self.get_info()
# Criando um Observatório
self.set_observer(self.longitude, self.latitude, self.elevation)
while True:
now_datetime = datetime.utcnow()
self.obs.date = ephem.date(now_datetime)
sun = ephem.Sun(self.obs)
moon = ephem.Moon(self.obs)
frac = moon.moon_phase
sun_alt = ephem.degrees(sun.alt)
moon_alt = ephem.degrees(moon.alt)
sun_elevation = "{:.2f}º".format(float(math.degrees(sun_alt)))
moon_elevation = "{:.2f}º".format(float(math.degrees(moon_alt)))
moon_phase = "{0:.2f}%".format(frac * 100)
self.signal_update_sun_moon.emit(
[sun_elevation, moon_elevation, moon_phase])
time.sleep(1)
def __init__(self):
super(QThreadSunMoon, self).__init__()
self.eof = EphemObserverFactory()
self.latitude = None
self.longitude = None
self.elevation = None
self.config = None
self.obs = None
class QThreadSunMoon(QtCore.QThread):
signal_update_sun_moon = QtCore.pyqtSignal([list], name="signalUpdateSunMoon")
def __init__(self):
super(QThreadSunMoon, self).__init__()
self.eof = EphemObserverFactory()
self.latitude = None
self.longitude = None
self.elevation = None
self.config = None
self.obs = None
def get_info(self):
# Criando uma instância do ConfigProject
self.config = ConfigProject()
# Recebendo as informações
info = self.config.get_geographic_settings()
# Atribuindo valor as variáveis de geolocalização
self.latitude = info[0] # '-45.51'
self.longitude = info[1] # '-23.12'
self.elevation = info[2] # 350
def set_observer(self, longitude, latitude, elevation):
""" Essa função cria um Observatório do PyEphem para utilizar nos cálculos """
self.obs = self.eof.create_observer(longitude=longitude,
latitude=latitude,
elevation=elevation)
def run(self):
# Pegando as informações
self.get_info()
# Criando um Observatório
self.set_observer(self.longitude, self.latitude, self.elevation)
while True:
now_datetime = datetime.utcnow()
self.obs.date = ephem.date(now_datetime)
sun = ephem.Sun(self.obs)
moon = ephem.Moon(self.obs)
frac = moon.moon_phase
sun_alt = ephem.degrees(sun.alt)
moon_alt = ephem.degrees(moon.alt)
sun_elevation = "{:.2f}º".format(float(math.degrees(sun_alt)))
moon_elevation = "{:.2f}º".format(float(math.degrees(moon_alt)))
moon_phase = "{0:.2f}%".format(frac * 100)
self.signal_update_sun_moon.emit([sun_elevation, moon_elevation, moon_phase])
time.sleep(1)
def __init__(self):
super(EphemerisShooter, self).__init__()
self.camconfig = SettingsCamera()
self.camconfig.setup_settings()
infocam = self.camconfig.get_camera_settings()
self.ObserverFactory = EphemObserverFactory()
self.continuousShooterThread = ContinuousShooterThread(int(infocam[4]))
self.console = ConsoleThreadOutput()
self.config = ConfigProject()
info = self.config.get_geographic_settings()
self.latitude = info[0] # '-45.51'
self.longitude = info[1] # '-23.12'
self.elevation = info[2] # 350
info_sun = self.config.get_moonsun_settings()
self.max_solar_elevation = float(info_sun[0]) # -12
self.ignore_lunar_position = info_sun[1]
self.max_lunar_elevation = float(info_sun[2]) # 8
self.max_lunar_phase = float(info_sun[3]) # 1
self.wait_temperature = False
print(int(infocam[4]))
try:
self.s = int(infocam[4])
self.continuousShooterThread.set_sleep_time(self.s)
except Exception as e:
self.s = 5
self.shootOn = False
self.controller = True
self.count = 1
class EphemerisShooter(QtCore.QThread):
signal_started_shooting = QtCore.pyqtSignal(name="signalStartedShooting")
signal_temp = QtCore.pyqtSignal(name="signalTemp")
def __init__(self):
super(EphemerisShooter, self).__init__()
self.camconfig = SettingsCamera()
self.camconfig.setup_settings()
infocam = self.camconfig.get_camera_settings()
self.ObserverFactory = EphemObserverFactory()
self.continuousShooterThread = ContinuousShooterThread(int(infocam[4]))
self.console = ConsoleThreadOutput()
self.config = ConfigProject()
info = self.config.get_geographic_settings()
infosun = self.config.get_moonsun_settings()
self.latitude = info[0] # '-45.51'
self.longitude = info[1] # '-23.12'
self.elevation = info[2] # 350
self.max_solar_elevation = infosun[0] # -12
self.ignore_lunar_position = infosun[1]
self.max_lunar_elevation = infosun[2] # 8
self.max_lunar_phase = infosun[3] # 1
self.t = False
print(int(infocam[4]))
try:
self.s = int(infocam[4])
self.continuousShooterThread.set_sleep_time(self.s)
except Exception as e:
self.s = 5
self.shootOn = False
self.controller = True
self.count = 1
def refresh_data(self):
try:
info = self.config.get_geographic_settings()
self.latitude = info[0] # '-45.51'
self.longitude = info[1] # '-23.12'
self.elevation = info[2] # 350
infosun = self.config.get_moonsun_settings()
self.max_solar_elevation = float(infosun[0]) # -12
self.ignore_lunar_position = infosun[1]
self.max_lunar_elevation = float(infosun[2]) # 8
self.max_lunar_phase = float(infosun[3]) # 1
except Exception as e:
self.console.raise_text("Exception thrown to acquire information\n"
"Please set an observatory information on settings\n" + str(e), level=3)
self.latitude = 0
self.longitude = 0
self.elevation = 0
self.max_solar_elevation = 0
self.max_lunar_elevation = 0
self.max_lunar_phase = 0
infocam = self.camconfig.get_camera_settings()
try:
self.s = int(infocam[4])
except Exception as e:
self.s = 0
def calculate_moon(self, obs):
aux = obs
aux.compute_pressure()
aux.horizon = '8'
moon = ephem.Moon(aux)
return aux.previous_setting(moon), aux.next_rising(moon)
def calculate_sun(self, obs):
aux = obs
aux.compute_pressure()
aux.horizon = '-12'
sun = ephem.Sun(aux)
return aux.previous_setting(sun), aux.next_rising(sun)
def set_solar_and_lunar_parameters(self, maxSolarElevation, maxLunarElevation, maxLunarPhase):
self.max_solar_elevation = maxSolarElevation
self.max_lunar_elevation = maxLunarElevation
self.max_lunar_phase = maxLunarPhase
def run(self):
self.refresh_data()
obs = self.ObserverFactory.create_observer(longitude=self.longitude,
latitude=self.latitude,
elevation=self.elevation)
self.controller = True
self.shootOn = False
c = 0
try:
while self.controller:
obs.date = ephem.date(datetime.datetime.utcnow())
sun = ephem.Sun(obs)
moon = ephem.Moon(obs)
frac = moon.moon_phase
a = ephem.degrees(sun.alt)
b = ephem.degrees(str(moon.alt))
# Variavel de controle do shooter
t = 1
if float(math.degrees(a)) < self.max_solar_elevation or t == 1:
if (self.ignore_lunar_position == False and float(math.degrees(b)) < self.max_lunar_elevation
and frac < self.max_lunar_phase) or self.ignore_lunar_position:
if not self.shootOn:
if not c:
self.signal_started_shooting.emit()
c = 1
self.signal_temp.emit()
time.sleep(5)
if self.t:
# Iniciar as Observações
self.start_taking_photo()
self.shootOn = True
else:
if self.shootOn:
# Finalizar as Observações
self.stop_taking_photo()
c = 0
self.shootOn = False
time.sleep(5)
except Exception as e:
self.console.raise_text("Exception no Ephemeris Shooter -> " + str(e))
def stop_shooter(self):
self.controller = False
self.continuousShooterThread.stop_continuous_shooter()
def start_taking_photo(self):
self.continuousShooterThread.set_sleep_time(self.s)
self.continuousShooterThread.start_continuous_shooter()
self.continuousShooterThread.start()
def stop_taking_photo(self):
self.continuousShooterThread.stop_continuous_shooter()
class EphemerisShooter(QtCore.QThread):
'''
classe para modo automatico
'''
signal_started_shooting = QtCore.pyqtSignal(name="signalStartedShooting")
signal_temp = QtCore.pyqtSignal(name="signalTemp")
def __init__(self):
super(EphemerisShooter, self).__init__()
self.ObserverFactory = EphemObserverFactory()
# self.continuousShooterThread = ContinuousShooterThread(int(info_cam[4]))
self.continuousShooterThread = ContinuousShooterThread(0)
self.console = ConsoleThreadOutput()
self.config = ConfigProject()
info = self.config.get_geographic_settings()
info_sun = self.config.get_moonsun_settings()
self.latitude = info[0] # '-45.51'
self.longitude = info[1] # '-23.12'
self.elevation = info[2] # 350
self.max_solar_elevation = info_sun[0] # -12
self.ignore_lunar_position = info_sun[1]
self.max_lunar_elevation = info_sun[2] # 8
self.max_lunar_phase = info_sun[3] # 1
self.wait_temperature = False
self.shootOn = False
self.controller = True
self.count = 1
def refresh_data(self):
try:
info = self.config.get_geographic_settings()
self.latitude = info[0] # '-45.51'
self.longitude = info[1] # '-23.12'
self.elevation = info[2] # 350
info_sun = self.config.get_moonsun_settings()
self.max_solar_elevation = float(info_sun[0]) # -12
self.ignore_lunar_position = info_sun[1]
self.max_lunar_elevation = float(info_sun[2]) # 8
self.max_lunar_phase = float(info_sun[3]) # 1
except Exception as e:
self.console.raise_text(
"Exception thrown to acquire information\n"
"Please set an observatory information on settings\n" + str(e),
level=3)
self.latitude = 0
self.longitude = 0
self.elevation = 0
self.max_solar_elevation = 0
self.max_lunar_elevation = 0
self.max_lunar_phase = 0
def calculate_moon(self, obs):
aux = obs
aux.compute_pressure()
aux.horizon = '8'
moon = ephem.Moon(aux)
return aux.previous_setting(moon), aux.next_rising(moon)
def calculate_sun(self, obs):
aux = obs
aux.compute_pressure()
aux.horizon = '-12'
sun = ephem.Sun(aux)
return aux.previous_setting(sun), aux.next_rising(sun)
def set_solar_and_lunar_parameters(self, maxSolarElevation,
maxLunarElevation, maxLunarPhase):
self.max_solar_elevation = maxSolarElevation
self.max_lunar_elevation = maxLunarElevation
self.max_lunar_phase = maxLunarPhase
def run(self):
self.refresh_data()
obs = self.ObserverFactory.create_observer(longitude=self.longitude,
latitude=self.latitude,
elevation=self.elevation)
self.controller = True
self.shootOn = False
c = 0
try:
while self.controller:
obs.date = ephem.date(datetime.datetime.utcnow())
sun = ephem.Sun(obs)
moon = ephem.Moon(obs)
frac = moon.moon_phase
a = ephem.degrees(sun.alt)
b = ephem.degrees(str(moon.alt))
# Variavel de controle do shooter
t = 0
if float(math.degrees(a)) < self.max_solar_elevation or t == 1:
if (not self.ignore_lunar_position and
float(math.degrees(b)) < self.max_lunar_elevation
and frac < self.max_lunar_phase
) or self.ignore_lunar_position:
if not self.shootOn:
if not c:
self.signal_started_shooting.emit()
c = 1
self.signal_temp.emit()
time.sleep(5)
if self.wait_temperature:
# Iniciar as Observações
self.start_taking_photo()
self.shootOn = True
else:
if self.shootOn:
# Finalizar as Observações
self.stop_taking_photo()
c = 0
self.t = False
self.shootOn = False
time.sleep(5)
except Exception as e:
self.console.raise_text("Exception no Ephemeris Shooter -> " +
str(e))
def stop_shooter(self):
self.controller = False
self.continuousShooterThread.stop_continuous_shooter()
def start_taking_photo(self):
self.continuousShooterThread.start_continuous_shooter()
self.continuousShooterThread.start()
def stop_taking_photo(self):
self.continuousShooterThread.stop_continuous_shooter()
class EphemerisShooter(QtCore.QThread):
'''
classe para modo automatico
'''
signal_started_shooting = QtCore.pyqtSignal(name="signalStartedShooting")
signal_temp = QtCore.pyqtSignal(name="signalTemp")
def __init__(self):
super(EphemerisShooter, self).__init__()
self.camconfig = SettingsCamera()
self.camconfig.setup_settings()
infocam = self.camconfig.get_camera_settings()
self.ObserverFactory = EphemObserverFactory()
self.continuousShooterThread = ContinuousShooterThread(int(infocam[4]))
self.console = ConsoleThreadOutput()
self.config = ConfigProject()
info = self.config.get_geographic_settings()
self.latitude = info[0] # '-45.51'
self.longitude = info[1] # '-23.12'
self.elevation = info[2] # 350
info_sun = self.config.get_moonsun_settings()
self.max_solar_elevation = float(info_sun[0]) # -12
self.ignore_lunar_position = info_sun[1]
self.max_lunar_elevation = float(info_sun[2]) # 8
self.max_lunar_phase = float(info_sun[3]) # 1
self.wait_temperature = False
print(int(infocam[4]))
try:
self.s = int(infocam[4])
self.continuousShooterThread.set_sleep_time(self.s)
except Exception as e:
self.s = 5
self.shootOn = False
self.controller = True
self.count = 1
def refresh_data(self):
try:
info = self.config.get_geographic_settings()
self.latitude = info[0] # '-45.51'
self.longitude = info[1] # '-23.12'
self.elevation = info[2] # 350
infosun = self.config.get_moonsun_settings()
self.max_solar_elevation = float(infosun[0]) # -12
self.ignore_lunar_position = infosun[1]
self.max_lunar_elevation = float(infosun[2]) # 8
self.max_lunar_phase = float(infosun[3]) # 1
except Exception as e:
self.console.raise_text("Exception thrown to acquire information\n"
"Please set an observatory information on settings\n" + str(e), level=3)
self.latitude = 0
self.longitude = 0
self.elevation = 0
self.max_solar_elevation = 0
self.max_lunar_elevation = 0
self.max_lunar_phase = 0
infocam = self.camconfig.get_camera_settings()
try:
self.s = int(infocam[4])
except Exception as e:
self.s = 0
def calculate_moon(self, obs):
aux = obs
aux.compute_pressure()
aux.horizon = '8'
moon = ephem.Moon(aux)
return aux.previous_setting(moon), aux.next_rising(moon)
def calculate_sun(self, obs):
aux = obs
aux.compute_pressure()
aux.horizon = '-12'
sun = ephem.Sun(aux)
return aux.previous_setting(sun), aux.next_rising(sun)
def set_solar_and_lunar_parameters(self, maxSolarElevation, maxLunarElevation, maxLunarPhase):
self.max_solar_elevation = maxSolarElevation
self.max_lunar_elevation = maxLunarElevation
self.max_lunar_phase = maxLunarPhase
def run(self):
self.refresh_data()
obs = self.ObserverFactory.create_observer(longitude=self.longitude,
latitude=self.latitude,
elevation=self.elevation)
self.controller = True
self.shootOn = False
c = 0
flag = 0
try:
while self.controller:
obs.date = ephem.date(datetime.datetime.utcnow())
sun = ephem.Sun(obs)
moon = ephem.Moon(obs)
# frac = moon.moon_phase
frac = float(moon.moon_phase) * 100.0
a = ephem.degrees(sun.alt)
b = ephem.degrees(str(moon.alt))
# Variavel de controle do shooter
t = 0
# print("\n\n")
# print("math.degrees(a) = " + str(math.degrees(a)))
# print("self.max_solar_elevation = " + str(self.max_solar_elevation))
# print("self.ignore_lunar_position = " + str(self.ignore_lunar_position))
# print("math.degrees(b) = " + str(math.degrees(b)))
# print("self.max_lunar_elevation = " + str(self.max_lunar_elevation))
# print("self.max_lunar_phase = " + str(self.max_lunar_phase))
# print("\n\n")
'''
obs.date = ephem.date(now_datetime)
sun = ephem.Sun()
sun.compute(obs)
moon = ephem.Moon()
moon.compute(obs)
frac = float(moon.moon_phase) * 100.0
ag_s = float(repr(sun.alt))
s_ag = math.degrees(ag_s)
ag_m = float(repr(moon.alt))
m_ag = math.degrees(ag_m)
'''
# flag = 0
ephem_out = False
# **************************************** Ephem Loop ****************************************
if self.ignore_lunar_position:
if (float(math.degrees(a)) <= self.max_solar_elevation) and (flag == 0):
if not self.shootOn:
if not c:
self.signal_started_shooting.emit()
c = 1
# flag = 1
self.signal_temp.emit()
time.sleep(5)
if self.wait_temperature:
# Iniciar as Observações
self.start_taking_photo()
self.shootOn = True
self.log_ephem_infos()
flag = 1
if (float(math.degrees(a)) > self.max_solar_elevation) and (flag == 1):
if self.shootOn:
# Finalizar as Observações
self.stop_taking_photo()
c = 0
flag = 0
self.t = False
self.shootOn = False
else:
if frac < self.max_lunar_phase:
if (float(math.degrees(a)) <= self.max_solar_elevation) and (float(math.degrees(b)) <= self.max_lunar_elevation) and (flag == 0):
if not self.shootOn:
if not c:
self.signal_started_shooting.emit()
c = 1
# flag = 1
self.signal_temp.emit()
time.sleep(5)
if self.wait_temperature:
# Iniciar as Observações
self.start_taking_photo()
self.shootOn = True
self.log_ephem_infos()
flag = 1
if (float(math.degrees(a)) > self.max_solar_elevation or float(math.degrees(b)) > self.max_lunar_elevation) and (flag == 1):
if self.shootOn:
# Finalizar as Observações
self.stop_taking_photo()
c = 0
flag = 0
self.t = False
self.shootOn = False
else:
if (float(math.degrees(a)) <= self.max_solar_elevation) and (float(math.degrees(b)) <= float(5.0)) and (flag == 0):
if not self.shootOn:
if not c:
self.signal_started_shooting.emit()
c = 1
# flag = 1
self.signal_temp.emit()
time.sleep(5)
if self.wait_temperature:
# Iniciar as Observações
self.start_taking_photo()
self.shootOn = True
self.log_ephem_infos()
flag = 1
if (float(math.degrees(a)) > self.max_solar_elevation or float(math.degrees(b)) > float(5.0)) and (flag == 1):
if self.shootOn:
# Finalizar as Observações
self.stop_taking_photo()
c = 0
flag = 0
self.t = False
self.shootOn = False
# **************************************** Ephem Loop ****************************************
'''
if float(math.degrees(a)) < self.max_solar_elevation or t == 1:
if (not self.ignore_lunar_position and float(math.degrees(b)) < self.max_lunar_elevation
and frac < self.max_lunar_phase) or self.ignore_lunar_position:
if not self.shootOn:
if not c:
self.signal_started_shooting.emit()
c = 1
self.signal_temp.emit()
time.sleep(5)
if self.wait_temperature:
# Iniciar as Observações
self.start_taking_photo()
self.shootOn = True
else:
if self.shootOn:
# Finalizar as Observações
self.stop_taking_photo()
c = 0
self.t = False
self.shootOn = False
time.sleep(5)
'''
except Exception as e:
self.console.raise_text("Exception no Ephemeris Shooter -> " + str(e))
def stop_shooter(self):
self.controller = False
if self.continuousShooterThread.isRunning():
self.continuousShooterThread.stop_continuous_shooter()
"""
if not self.continuousShooterThread.wait_temperature:
self.continuousShooterThread.stop_continuous_shooter()
"""
def start_taking_photo(self):
self.continuousShooterThread.set_sleep_time(self.s)
self.continuousShooterThread.start_continuous_shooter()
self.continuousShooterThread.start()
def stop_taking_photo(self):
self.continuousShooterThread.stop_continuous_shooter()
def log_ephem_infos(self):
info_start_end = result()
start_time = str(info_start_end[0])
start_field = start_time[:-10] + " UTC"
end_time = str(info_start_end[1])
end_field = end_time[:-10] + " UTC"
'''
time_obs_time = str(info_start_end[2]).split(":")
time_obs_time = [z.split(".")[0] for z in time_obs_time]
time_obs_field = time_obs_time[0] + ":" + time_obs_time[1] + " Hours"
'''
# self.console.raise_text("Start Time: " + start_field + "; End Time: " + end_field, 2)
self.console.save_log("Start Time: " + start_field + "; End Time: " + end_field)
class SThread(QtCore.QThread):
"""
Threads são fluxos de programas que executam em paralelo dentro de uma aplicação, isto é,\
uma ramificação de uma parte da aplicação que é executada de forma independente e\
escalonada independentemente do fluxo inicial da aplicação.
Fonte: http://imasters.com.br/artigo/20127/py/threads-em-python/?trace=1519021197&source=single
"""
def __init__(self):
super(SThread, self).__init__()
self.prefix = None
self.exposure_time = None
self.binning = None
self.get_level1 = None
self.get_level2 = None
self.get_axis_xi = None
self.get_axis_xf = None
self.get_axis_yi = None
self.get_axis_yf = None
self.get_ignore_crop = None
self.console = ConsoleThreadOutput()
self.get_image_tif = None
self.get_image_fit = None
self.get_image_png = None
self.temperatura = None
self.eof = EphemObserverFactory()
self.obs = None
self.path = None
self.tempo = None
self.info_matrix = None
self.img = None
self.new_image_name = None
self.selected_filter = None
self.dark_or_open = "Closed"
self.one_photo = None
self.for_headers_dic = {}
self.lock = Locker()
self.info_matrix = []
self.filter_split_label = None
self.count_aux = 0
self.kwargs = None
self.message_console_one_photo = None
self.roda_filtros = FilterControl()
def set_config_take_image(self):
"""
seta as configuracoes para se tirar uma foto
"""
try:
info_cam = get_camera_settings()
self.for_headers_dic['Set Temperature'] = info_cam[0]
self.for_headers_dic['????Tempo de espera'] = info_cam[1]
info_image = get_image_settings()
try:
self.get_level1 = float(info_image[0])
except Exception as e:
# print("self.get_level1 = 0.1 -> {}".format(e))
self.get_level1 = 0.1
try:
self.get_level2 = float(info_image[1])
except Exception as e:
# print("self.get_level2 = 0.99 -> {}".format(e))
self.get_level2 = 0.99
try:
self.get_axis_xi = float(info_image[2])
except Exception as e:
# print("self.get_axis_xi = 0 -> {}".format(e))
self.get_axis_xi = 0
try:
self.get_axis_xf = float(info_image[3])
except Exception as e:
# print("self.get_axis_xf = 0 -> {}".format(e))
self.get_axis_xf = 0
try:
self.get_axis_yi = float(info_image[4])
except Exception as e:
# print("self.get_axis_yi = 0 -> {}".format(e))
self.get_axis_yi = 0
try:
self.get_axis_yf = float(info_image[5])
except Exception as e:
# print("self.get_axis_yf = 0 -> {}".format(e))
self.get_axis_yf = 0
try:
self.get_ignore_crop = info_image[6]
except Exception as e:
print("self.get_ignore_crop = True -> {}".format(e))
self.get_ignore_crop = True
try:
self.get_image_png = info_image[7]
except Exception as e:
print("self.get_image_png = True -> {}".format(e))
self.get_image_png = True
try:
self.get_image_tif = info_image[8]
except Exception as e:
print("self.get_image_tif = True -> {}".format(e))
self.get_image_tif = True
try:
self.get_image_fit = info_image[9]
except Exception as e:
print("self.get_image_fit = True -> {}".format(e))
self.get_image_fit = True
try:
self.filter_split_label = get_filter_settings()
except Exception as e:
print("get_filter_settings() -> {}".format(e))
try:
self.append_camera_settings()
except Exception as e:
print(
"self.append_camera_settings() in set_config_take_image -> {}"
.format(e))
except Exception as e:
print("Try ini definitive -> {}".format(e))
def recebe_argumento(self, kwargs):
self.kwargs = kwargs
def args_one_photo(self, filter_args, kwargs):
self.selected_filter = filter_args
if kwargs == "Closed":
self.kwargs = 1
else:
self.kwargs = 0
self.one_photo = True
def run(self):
if self.kwargs == 0:
try:
self.create_image_open()
except Exception as e:
print("self.create_image_open() -> {}".format(e))
else:
try:
self.create_image_close()
except Exception as e:
print("self.create_image_close() -> {}".format(e))
def create_image_open(self):
self.roda_filtros.open_shutter()
self.set_config_take_image()
self.lock.set_acquire()
my_list = get_wish_filters_settings() # list of schedule
try:
if self.count_aux < len(my_list):
if self.one_photo:
index_of_dic = self.selected_filter
else:
index_of_dic = str(my_list[self.count_aux])
self.valores_principais_wish_filter(index_of_dic)
self.count_aux += 1
else:
self.count_aux = 0
if self.one_photo:
index_of_dic = self.selected_filter
else:
index_of_dic = str(my_list[self.count_aux])
self.valores_principais_wish_filter(index_of_dic)
self.count_aux += 1
except Exception as e:
print("Try filter ini -> {}".format(e))
project_infos = get_project_settings()
name_observatory = project_infos[2][1]
self.path, self.tempo = set_path()
self.new_image_name = str(
self.prefix) + "_" + str(name_observatory) + "_" + str(self.tempo)
new_image_name = self.path + str(self.new_image_name)
try:
self.info_matrix = SbigDriver.photoshoot(self.exposure_time,
self.binning, 0)
except Exception as e:
print("self.info_matrix = SbigDriver.photoshoot ERROR -> " +
str(e))
self.for_headers_dic['Open or close shutter'] = "OPEN"
self.save_image_format(new_image_name)
self.for_headers_dic = {}
self.one_photo = False
self.init_image()
self.lock.set_release()
def create_image_close(self):
self.roda_filtros.close_shutter()
my_list = get_wish_filters_settings() # list of schedule
my_list = set(my_list)
my_list = sorted(my_list)
count_aux = 0
while count_aux < len(my_list):
self.set_config_take_image()
self.lock.set_acquire()
if self.one_photo:
index_of_dic = self.selected_filter
count_aux = 100
else:
index_of_dic = str(my_list[count_aux])
self.valores_principais_wish_filter(index_of_dic)
project_infos = get_project_settings()
name_observatory = project_infos[2][1]
self.path, self.tempo = set_path()
self.new_image_name = "DARK-" + str(
self.prefix) + "_" + str(name_observatory) + "_" + str(
self.tempo)
new_image_name = self.path + str(self.new_image_name)
try:
self.info_matrix = SbigDriver.photoshoot(
self.exposure_time, self.binning, 1)
except Exception as e:
print("self.info_matrix = SbigDriver.photoshoot ERROR -> " +
str(e))
self.for_headers_dic['Open or close shutter'] = "CLOSED"
self.save_image_format(new_image_name)
self.for_headers_dic = {}
count_aux += 1
self.init_image()
self.lock.set_release()
self.one_photo = False
def filter_wheel_control(self, wish_filter_int):
try:
sleep(1)
wish_filter_int = int(wish_filter_int)
self.roda_filtros.filter_wheel_control(wish_filter_int)
sleep(1)
except Exception as e:
self.roda_filtros.home_reset()
print(e)
def save_image_format(self, new_image_name):
if not os.path.isdir(self.path):
os.makedirs(self.path)
if self.one_photo:
print(self.path)
self.for_headers_dic['Start Time'] = self.tempo
try:
self.temperatura = SbigDriver.get_temperature()
self.temperatura = "{0:.2f}".format(float(self.temperatura[3]))
# self.temperatura = "25"
self.for_headers_dic['Temperature'] = self.temperatura
except Exception as e:
print("Exception self.temperatura -> {}".format(e))
self.for_headers_dic['Temperature'] = "???"
if self.get_image_png:
try:
save_png(self.info_matrix, new_image_name,
self.for_headers_dic)
except Exception as e:
print("Exception save_png() -> {}".format(e))
if self.get_image_tif:
try:
save_tif(self.info_matrix, new_image_name)
if self.one_photo:
print(new_image_name)
except Exception as e:
print("Exception save_tif() -> {}".format(e))
if self.get_image_fit:
try:
save_fit(self.info_matrix, new_image_name,
self.for_headers_dic)
except Exception as e:
print("Exception save_fit() -> {}".format(e))
if not self.get_image_fit and not self.get_image_tif and not self.get_image_fit:
try:
save_png(self.info_matrix, new_image_name,
self.for_headers_dic)
except Exception as e:
print("Exception save_png() -> {}".format(e))
def valores_principais_wish_filter(self, index_of_dic):
aux = self.filter_split_label[str(index_of_dic)][0]
aux = list(aux)
'''
aux[0] = self.prefix
aux[2] = self.exposure_time
aux[3] = self.binning
aux[4] = wish filter
'''
self.prefix = str(aux[0])
self.exposure_time = float(aux[2])
if self.exposure_time <= 0.12:
self.exposure_time = 0.12 * 100
elif self.exposure_time >= 3600:
self.exposure_time = 3600 * 100
else:
self.exposure_time = float(aux[2]) * 100
self.exposure_time = int(self.exposure_time)
self.binning = int(aux[3])
self.filter_wheel_control(int(aux[4]))
self.append_filters_settings(aux)
def append_camera_settings(self):
try:
project_infos = get_project_settings()
try:
self.obs = self.eof.create_observer(
longitude=project_infos[0][1],
latitude=project_infos[0][0],
elevation=project_infos[1][0])
now_datetime = datetime.utcnow()
self.obs.date = ephem.date(now_datetime)
sun = ephem.Sun(self.obs)
moon = ephem.Moon(self.obs)
frac = moon.moon_phase
sun_alt = ephem.degrees(sun.alt)
moon_alt = ephem.degrees(moon.alt)
sun_elevation = "{:.2f}".format(float(math.degrees(sun_alt)))
moon_elevation = "{:.2f}".format(float(math.degrees(moon_alt)))
moon_phase = "{0:.2f}".format(frac * 100)
except Exception as e:
print("ephem update -> {}".format(e))
self.for_headers_dic['Latitude'] = str(project_infos[0][0])
self.for_headers_dic['Longitude'] = str(project_infos[0][1])
self.for_headers_dic['Elevation(m)'] = str(project_infos[0][2])
self.for_headers_dic['Pressure(mb)'] = str(project_infos[0][3])
self.for_headers_dic['Sun Elevation'] = str(sun_elevation)
self.for_headers_dic['Ignore Lunar Position'] = str(
project_infos[1][1])
self.for_headers_dic['Moon Elevation'] = str(moon_elevation)
self.for_headers_dic['Moon Phase'] = str(moon_phase)
self.for_headers_dic['Name'] = str(project_infos[2][0])
self.for_headers_dic['Observatory'] = str(project_infos[2][1])
self.for_headers_dic['Imager ID'] = str(project_infos[2][2])
self.for_headers_dic['get_level1'] = str(self.get_level1)
self.for_headers_dic['get_level2'] = str(self.get_level2)
self.for_headers_dic['get_axis_xi'] = str(self.get_axis_xi)
self.for_headers_dic['get_axis_xf'] = str(self.get_axis_xf)
self.for_headers_dic['get_axis_yi'] = str(self.get_axis_yi)
self.for_headers_dic['get_axis_yf'] = str(self.get_axis_yf)
self.for_headers_dic['get_ignore_crop'] = str(self.get_ignore_crop)
except Exception as e:
print("run append_camera_settings() -> {}".format(e))
def append_filters_settings(self, aux):
try:
self.for_headers_dic['Filter Label'] = str(aux[0])
self.for_headers_dic['Filter Wavelength'] = str(aux[1])
self.for_headers_dic['Exposure'] = str(self.exposure_time)
self.for_headers_dic['Binning'] = str(aux[3])
self.for_headers_dic['Filter Position'] = str(aux[4])
except Exception as e:
print("run append_filters_settings() -> {}".format(e))
def get_new_image_name(self, local_name_image):
self.console.raise_text(
"Image saved in " + str(local_name_image) + ".png", 1)
def init_image(self):
try:
print("\nAAAAAAAAAAAAAAAAAAAAAA\n")
# for i in self.info_matrix:
# print(i)
self.img = Image(self.path, self.new_image_name)
except Exception as e:
print("Image('', '') -> {}".format(e))
self.img = Image('', '')
return self.img
def get_image_info(self):
return self.img