def main():
""" Main function """
logging.basicConfig(filename="logger.txt", level=logging.ERROR)
logging.basicConfig(level=logging.ERROR)
ports = dict()
ports[
'Sample'] = '/dev/serial/by-id/usb-FTDI_USB-RS485_Cable_FTY5BU0H-if00-port0'
ports[
'Base'] = '/dev/serial/by-id/usb-FTDI_USB-RS485_Cable_FTY3GX3T-if00-port0'
# Set up criterium logger
logger = LoggingCriteriumChecker(
codenames=[CODENAMES['Base']],
types=['lin'],
criteria=[0.2],
time_outs=[300],
)
# Set up pullsocket
datasocket = DateDataPullSocket('mgw_temp',
list(CODENAMES.values()),
timeouts=4,
port=9000)
datasocket.start()
db_logger = ContinuousDataSaver(continuous_data_table='dateplots_omicron',
username=credentials.user,
password=credentials.passwd,
measurement_codenames=[CODENAMES['Base']])
db_logger.start()
measurement = TcReader(ports['Base'],
datasocket,
crit_logger=logger,
db_logger=db_logger,
codename=CODENAMES['Base'])
measurement.start()
sample_logger = TcReader(ports['Sample'],
datasocket,
codename=CODENAMES['Sample'])
sample_logger.start()
time.sleep(5)
string = 'Base: {: >6.4} C, Sample: {: >6.4} C'
while True:
try:
time.sleep(1)
print(
string.format(measurement.temperature,
sample_logger.temperature))
except KeyboardInterrupt:
measurement.stop()
sample_logger.stop()
time.sleep(2)
print('\nTcReaders stopped')
datasocket.stop()
print('Pullsocket stopped\nExiting.')
break
def main():
""" Main function """
ports = dict()
ports['Sample'] = '/dev/serial/by-id/usb-FTDI_USB-RS485_Cable_FTY5BU0H-if00-port0'
ports['Base'] = '/dev/serial/by-id/usb-FTDI_USB-RS485_Cable_FTY3GX3T-if00-port0'
# Set up criterium logger
logger = LoggingCriteriumChecker(
codenames=[CODENAMES['Base']],
types=['lin'],
criteria=[0.73],
time_outs=[600],
low_compare_values=[-200],
)
# Set up pullsocket
datasocket = DateDataPullSocket('mgw_temp', list(CODENAMES.values()), timeouts=4, port=9000)
datasocket.start()
db_logger = ContinuousDataSaver(continuous_data_table='dateplots_omicron',
username=credentials.user,
password=credentials.passwd,
measurement_codenames=[CODENAMES['Base']])
db_logger.start()
logger1 = LOGGER.getChild('Base_reader')
measurement = TcReader(ports['Base'], datasocket, crit_logger=logger, db_logger=db_logger, codename=CODENAMES['Base'], logger=logger1)
measurement.start()
logger2 = LOGGER.getChild('Sample_reader')
sample_logger = TcReader(ports['Sample'], datasocket, codename=CODENAMES['Sample'], logger=logger2)
sample_logger.start()
time.sleep(2)
string = 'Base: {: <6.4} C, Sample: {: <6.4} C'
while True:
try:
time.sleep(1)
sample = sample_logger.temperature
if sample is None:
sample = '----'
base = measurement.temperature
if base is None:
base = '----'
print(string.format(base, sample))
except ValueError:
print('ValueError')
print(repr(measurement.temperature), type(measurement.temperature))
print(repr(sample_logger.temperature))
except KeyboardInterrupt:
measurement.stop()
sample_logger.stop()
time.sleep(2)
LOGGER.info('\nTcReaders stopped')
datasocket.stop()
LOGGER.info('Pullsocket stopped\nExiting.')
break
class MySocket(threading.Thread):
""" Temperature reader """
def __init__(self):
threading.Thread.__init__(self)
self.sock = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
self.sock.settimeout(2)
self.quit = False
sockname = 'tabs_all'
self.codenames = socketinfo.INFO[sockname]['codenames']
self.PullSocket = DateDataPullSocket(sockname, self.codenames, timeouts=[60.0]*len(self.codenames), port = socketinfo.INFO[sockname]['port'])
self.PullSocket.start()
self.data = {}
for co in self.codenames:
self.data[co] = None
def run(self,):
i = 0
while not self.quit:
try:
#print(i)
time.sleep(2)
for name in self.codenames:
v = self.loggers[name].read_value()
v = self.data[name]
self.PullSocket.set_point_now(name, v)
except (KeyboardInterrupt, SystemExit):
pass
#self.VC.stop()
#report error and proceed
i += 1
def update_values(self,):
""" Read the temperature from a external socket server"""
for so in ['tabs_temperatures', 'tabs_setpoints', 'tabs_pids', 'tabs_valve', 'tabs_multiplexer']:
try:
info = socketinfo.INFO[so]
host_port = (info['host'], info['port'])
command = 'json_wn'
self.sock.sendto(command, host_port)
data = json.loads(self.sock.recv(2048))
now = time.time()
#print(data)
for key, value in data.items():
try:
if abs(now - value[0]) > 3*60 or value[1] == 'OLD_DATA': # this is 3min change to 5s
self.data[key] = None
else:
self.data[key] = value[1]
except:
self.data[key] = None
except socket.timeout:
pass
return self.data
def stop(self):
self.quit = True
self.PullSocket.stop()
class TemperatureLogger(object):
def __init__(self):
# Initialize omega driver
LOGGER.info('Initialize omega d6400 driver')
d6400_id = '/dev/serial/by-id/usb-FTDI_USB-RS485_Cable_FTWGRP0B-if00'\
'-port0'
self.d6400 = D6400.OmegaD6400(1, d6400_id)
for channel in range(1, 8):
LOGGER.info('Set range for channel {}'.format(channel))
self.d6400.update_range_and_function(channel, action='tc',
fullrange='K')
# Initialize socket
name = 'Coupled reactor temperatures'
self.codenames = {
1: 'R1_temp',
2: 'R1_sample_temp',
3: 'R2_temp',
4: 'R2_sample_temp',
5: 'pro_inlet_temp',
6: 'pro_d1_temp',
7: 'pro_d2_temp',
}
codenames_list = [self.codenames[channel] for channel in range(1, 8)]
self.socket = DateDataPullSocket(name, codenames_list, timeouts = 2.0)
self.socket.start()
# Measure initial values
self.temperatures = {}
for channel in range(1, 8):
self.temperatures[channel] = self.d6400.read_value(channel)
LOGGER.info('Get initial value {} for channel: {}'.format(
self.temperatures[channel], channel))
self.socket.set_point_now(self.codenames[channel],
self.temperatures[channel])
def main(self):
"""Main meaurement loop"""
while True:
for channel in range(1, 8):
self.temperatures[channel] = self.d6400.read_value(channel)
LOGGER.info('Measured value {} for channel: {}'.format(
self.temperatures[channel], channel))
self.socket.set_point_now(self.codenames[channel],
self.temperatures[channel])
def close(self):
"""Shut down the socket"""
self.socket.stop()
time.sleep(2)
class TemperatureLogger(object):
def __init__(self):
# Initialize omega driver
LOGGER.info('Initialize omega d6400 driver')
d6400_id = '/dev/serial/by-id/usb-FTDI_USB-RS485_Cable_FTWGRP0B-if00'\
'-port0'
self.d6400 = D6400.OmegaD6400(1, d6400_id)
for channel in range(1, 8):
LOGGER.info('Set range for channel {}'.format(channel))
self.d6400.update_range_and_function(channel,
action='tc',
fullrange='K')
# Initialize socket
name = 'Coupled reactor temperatures'
self.codenames = {
1: 'R1_temp',
2: 'R1_sample_temp',
3: 'R2_temp',
4: 'R2_sample_temp',
5: 'pro_inlet_temp',
6: 'pro_d1_temp',
7: 'pro_d2_temp',
}
codenames_list = [self.codenames[channel] for channel in range(1, 8)]
self.socket = DateDataPullSocket(name, codenames_list, timeouts=2.0)
self.socket.start()
# Measure initial values
self.temperatures = {}
for channel in range(1, 8):
self.temperatures[channel] = self.d6400.read_value(channel)
LOGGER.info('Get initial value {} for channel: {}'.format(
self.temperatures[channel], channel))
self.socket.set_point_now(self.codenames[channel],
self.temperatures[channel])
def main(self):
"""Main meaurement loop"""
while True:
for channel in range(1, 8):
self.temperatures[channel] = self.d6400.read_value(channel)
LOGGER.info('Measured value {} for channel: {}'.format(
self.temperatures[channel], channel))
self.socket.set_point_now(self.codenames[channel],
self.temperatures[channel])
def close(self):
"""Shut down the socket"""
self.socket.stop()
time.sleep(2)
def main():
"""Main function """
pvci = epimax.PVCi(
'/dev/serial/by-id/'
'usb-FTDI_USB-RS485_Cable_FT0N0UFX-if00-port0',
slave_address=1)
# Start live socket
live_socket = LiveSocket(
'omicron_pvci',
list(CODENAME_TRANSLATION.keys()),
)
live_socket.start()
# Start pull socket
pullsocket = DateDataPullSocket(
'omicron_pvci_pull',
list(CODENAME_TRANSLATION.keys()),
timeouts=2.5,
)
pullsocket.start()
# Start database saver
database_saver = ContinuousDataSaver(
'dateplots_omicron',
credentials.USERNAME,
credentials.PASSWORD,
list(CODENAME_TRANSLATION.keys()),
)
database_saver.start()
# Criterium checker
criterium_checker = LoggingCriteriumChecker(
codenames=list(CODENAME_TRANSLATION.keys()),
types=['log'] * len(CODENAME_TRANSLATION.keys()),
criteria=[0.05] * len(CODENAME_TRANSLATION.keys()),
time_outs=[300] * len(CODENAME_TRANSLATION.keys()),
)
# Main loop
try:
run(pvci, live_socket, pullsocket, database_saver, criterium_checker)
except KeyboardInterrupt:
sleep(WAIT)
pvci.close()
live_socket.stop()
pullsocket.stop()
database_saver.stop()
except:
LOG.exception("Omicron pvci data logger stopped")
class pressure_socket(object):
def __init__(self):
self.name = 'Sigrun_pressure'
self.data_entries = ['pressure']
self.port = 9009
self.socket = DateDataPullSocket(self.name, self.data_entries, port=self.port)
self.socket.start()
def stop(self):
self.socket.stop()
def set_point_now(self, data_point):
self.socket.set_point('pressure',data_point)
def main():
""" Main function """
logging.basicConfig(filename="logger.txt", level=logging.ERROR)
logging.basicConfig(level=logging.ERROR)
ports = dict()
ports['Sample'] = '/dev/serial/by-id/usb-FTDI_USB-RS485_Cable_FTY5BU0H-if00-port0'
ports['Base'] = '/dev/serial/by-id/usb-FTDI_USB-RS485_Cable_FTY3GX3T-if00-port0'
# Set up criterium logger
logger = LoggingCriteriumChecker(
codenames=[CODENAMES['Base']],
types=['lin'],
criteria=[0.2],
time_outs=[300],
)
# Set up pullsocket
datasocket = DateDataPullSocket('mgw_temp', list(CODENAMES.values()), timeouts=4, port=9000)
datasocket.start()
db_logger = ContinuousDataSaver(continuous_data_table='dateplots_omicron',
username=credentials.user,
password=credentials.passwd,
measurement_codenames=[CODENAMES['Base']])
db_logger.start()
measurement = TcReader(ports['Base'], datasocket, crit_logger=logger, db_logger=db_logger, codename=CODENAMES['Base'])
measurement.start()
sample_logger = TcReader(ports['Sample'], datasocket, codename=CODENAMES['Sample'])
sample_logger.start()
time.sleep(5)
string = 'Base: {: >6.4} C, Sample: {: >6.4} C'
while True:
try:
time.sleep(1)
print(string.format(measurement.temperature, sample_logger.temperature))
except KeyboardInterrupt:
measurement.stop()
sample_logger.stop()
time.sleep(2)
print('\nTcReaders stopped')
datasocket.stop()
print('Pullsocket stopped\nExiting.')
break
class GC_data_socket(object):
def __init__(self):
self.name = 'Sigrun_Gas_Chromatograph'
self.data_entries = ['ready_voltage','retention_time','FID low V','FID high V','TCD low V','TCD high V']
self.port = 9002
self.socket = DateDataPullSocket(self.name, self.data_entries, port=self.port)
self.socket.start()
def stop(self):
self.socket.stop()
def set_point_now(self, entry, data_point):
if entry not in self.data_entries:
raise KeyError('Key not found in data_entries')
return
self.socket.set_point(entry, data_point)
def main():
LOGGER.info('main started')
cni = CNi3244_C24(5)
socket = DateDataPullSocket(FULL_NAME, [SHORT_NAME], timeouts=1.0)
socket.start()
db_logger = ContinuousLogger(table='dateplots_tower',
username='******',
password='******',
measurement_codenames=[NAME],
dsn='servcinf')
db_logger.start()
time.sleep(0.1)
# Main part
try:
main_measure_loop(cni, socket, db_logger)
except KeyboardInterrupt:
LOGGER.info('Keyboard Interrupt. Shutting down!')
db_logger.stop()
cni.close()
socket.stop()
def main():
LOGGER.info('main started')
cni = CNi3244_C24(5)
socket = DateDataPullSocket(FULL_NAME, [SHORT_NAME], timeouts=1.0)
socket.start()
db_logger = ContinuousLogger(
table='dateplots_tower', username='******', password='******',
measurement_codenames=[NAME],
dsn='servcinf'
)
db_logger.start()
time.sleep(0.1)
# Main part
try:
main_measure_loop(cni, socket, db_logger)
except KeyboardInterrupt:
LOGGER.info('Keyboard Interrupt. Shutting down!')
db_logger.stop()
cni.close()
socket.stop()
#db_logger.start()
time.sleep(5)
run = True
while run:
time.sleep(0.25)
try:
for name in codenames:
v = loggers[name].read_value()
socket.set_point_now(name, v)
if loggers[name].read_trigged():
print v
#db_logger.enqueue_point_now(name, v)
loggers[name].clear_trigged()
print("resistance: {}, time: {}".format(v, time.time()))
except (KeyboardInterrupt, SystemExit):
print('raising error')
run = False
raise
except:
print('stoppiung everything')
run = False
reader.stop()
socket.stop()
for value, key in loggers.iteritems():
value.stop()
print('All is stopped')
class MainTui(threading.Thread):
""" Temperature reader """
def __init__(self, ):
threading.Thread.__init__(self)
#from mytui import CursesTui
self.quit = False
self.codenames = [
'tabs_guard_temperature_setpoint',
'tabs_floor_temperature_setpoint',
'tabs_ceiling_temperature_setpoint',
'tabs_cooling_temperature_setpoint',
]
sockname = 'tabs_setpoints'
self.PullSocket = DateDataPullSocket(
sockname,
self.codenames,
timeouts=[60.0] * len(self.codenames),
port=socketinfo.INFO[sockname]['port'])
self.PullSocket.start()
self.TUI = CursesTui(self.codenames)
self.TUI.daemon = True
self.TUI.start()
#time.sleep(5)
chlist = {
'tabs_guard_temperature_setpoint': 0,
'tabs_floor_temperature_setpoint': 1,
'tabs_ceiling_temperature_setpoint': 2,
'tabs_cooling_temperature_setpoint': 3
}
self.loggers = {}
for key in self.codenames:
self.loggers[key] = ValueLogger(self.TUI,
comp_val=0.2,
maximumtime=60,
comp_type='lin',
channel=chlist[key])
self.loggers[key].start()
#livesocket = LiveSocket('tabs_temperature_logger', codenames, 2)
#livesocket.start()
self.db_logger = ContinuousLogger(table='dateplots_tabs',
username=credentials.user,
password=credentials.passwd,
measurement_codenames=self.codenames)
#print('Hostname of db logger: ' + db_logger.host)
self.db_logger.start()
def run(self):
i = 0
while not self.quit:
#print(i)
if self.TUI.isAlive():
pass
else:
print('TUI has shutdown')
self.quit = True
try:
#print(i)
time.sleep(2)
for name in self.codenames:
v = self.loggers[name].read_value()
#print('Status: ', name , v)
#livesocket.set_point_now(name, v)
self.PullSocket.set_point_now(name, v)
if self.loggers[name].read_trigged():
#if __name__ == '__main__':
# print('Log: ', i, name, v)
#print('Log: ', name, v)
self.db_logger.enqueue_point_now(name, v)
self.loggers[name].clear_trigged()
except:
print('run error')
pass
#self.TUI.stop()
#report error and proceed
i += 1
self.stop()
def stop(self):
self.quit = True
self.TUI.stop()
self.PullSocket.stop()
self.db_logger.stop()
for key in self.codenames:
self.loggers[key].status['quit'] = True
class MainPID(threading.Thread):
""" pid controller """
def __init__(self, ):
logging.info('MainPID class started')
threading.Thread.__init__(self)
#from datalogger import TemperatureReader
self.quit = False
self.codenames = [
'tabs_guard_pid_value',
'tabs_floor_pid_value',
'tabs_ceiling_pid_value',
'tabs_cooling_pid_value',
'tabs_guard_valve_heating',
'tabs_floor_valve_heating',
'tabs_ceiling_valve_heating',
'tabs_guard_valve_cooling',
'tabs_floor_valve_cooling',
'tabs_ceiling_valve_cooling',
'tabs_cooling_valve_cooling',
]
sockname = 'tabs_pids'
self.PullSocket = DateDataPullSocket(
sockname,
self.codenames,
timeouts=[60.0] * len(self.codenames),
port=socketinfo.INFO[sockname]['port'])
self.PullSocket.start()
self.PTC = PidTemperatureControl(self.codenames)
self.PTC.daemon = True
self.PTC.start()
#time.sleep(5)
chlist = {
'tabs_guard_pid_value': 0,
'tabs_floor_pid_value': 1,
'tabs_ceiling_pid_value': 2,
'tabs_cooling_pid_value': 3,
'tabs_guard_valve_heating': 4,
'tabs_floor_valve_heating': 5,
'tabs_ceiling_valve_heating': 6,
'tabs_guard_valve_cooling': 7,
'tabs_floor_valve_cooling': 8,
'tabs_ceiling_valve_cooling': 9,
'tabs_cooling_valve_cooling': 10
}
self.loggers = {}
for key in self.codenames:
self.loggers[key] = ValueLogger(self.PTC,
comp_val=0.10,
maximumtime=60,
comp_type='lin',
channel=chlist[key])
self.loggers[key].start()
#livesocket = LiveSocket('tabs_temperature_logger', codenames, 2)
#livesocket.start()
self.db_logger = ContinuousLogger(table='dateplots_tabs',
username=credentials.user,
password=credentials.passwd,
measurement_codenames=self.codenames)
self.db_logger.start()
def run(self, ):
i = 0
while not self.quit and self.PTC.isAlive():
try:
#print(i)
time.sleep(1)
for name in self.codenames:
v = self.loggers[name].read_value()
#print('Status: ', name , v)
#livesocket.set_point_now(name, v)
self.PullSocket.set_point_now(name, v)
if self.loggers[name].read_trigged():
if __name__ == '__main__':
print('Log: ', i, name, v)
#print(i, name, v)
self.db_logger.enqueue_point_now(name, v)
self.loggers[name].clear_trigged()
except (KeyboardInterrupt, SystemExit):
self.quit = True
pass
#self.PTC.stop()
#report error and proceed
i += 1
self.stop()
def stop(self):
self.quit = True
self.PTC.stop()
self.PullSocket.stop()
self.db_logger.stop()
for key in self.codenames:
self.loggers[key].status['quit'] = True
CODENAMES = ['hv_psu_current', 'hv_psu_voltage']
# Pull socket
datasocket = DateDataPullSocket('hv_psu', CODENAMES, timeouts=4, port=9002)
datasocket.start()
string = 'Channel {}: {: >6.4} V\tChannel {}: {: >6.4} V'
dataq.start_measurement()
sleep(1)
while True:
try:
result = dataq.read_measurements()
except KeyboardInterrupt:
dataq.stop_measurement()
datasocket.stop()
break
except:
print('dataq error')
dataq.stop_measurement()
raise
current = result[1]
voltage = result[2]
datasocket.set_point_now('hv_psu_current', current)
datasocket.set_point_now('hv_psu_voltage', voltage)
print(string.format(1, current, 2, voltage))
try:
sleep(0.18)
except KeyboardInterrupt:
dataq.stop_measurement()
datasocket.stop()
class MainMultilogger(threading.Thread):
""" Temperature reader """
def __init__(self, ):
logging.info('MainMultilogger class started')
threading.Thread.__init__(self)
#from datalogger import TemperatureReader
self.quit = False
self.codenames = Setting_channel_list.keys()
"""['tabs_ceiling_temperature_delta',
'tabs_ceiling_temperature_deltaref',
'tabs_floor_temperature_delta',
'tabs_floor_temperature_deltaref',
'tabs_room_temperature_aircenter010',
'tabs_room_temperature_aircenter060',
'tabs_room_temperature_aircenter110',
'tabs_room_temperature_aircenter170',
'tabs_room_temperature_aircenter355',
'tabs_guard_temperature_airfloor',
'tabs_guard_temperature_airceiling',
'tabs_guard_temperature_airwallsouth',
'tabs_guard_temperature_airwallnorth',
'tabs_guard_temperature_airwalleast',
'tabs_guard_temperature_airwallwest',
]"""
self.multiplex_reader = MultiplexReader(self.codenames)
self.multiplex_reader.daemon = True
self.multiplex_reader.start()
#omega_temperature.update_values()
time.sleep(3.5)
chlist = Setting_channel_list
self.loggers = {}
for key in self.codenames:
self.loggers[key] = ValueLogger(self.multiplex_reader,
comp_val=0.5,
maximumtime=300,
comp_type='lin',
channel=chlist[key])
self.loggers[key].start()
#livesocket = LiveSocket('tabs_temperature_logger', codenames, 2)
#livesocket.start()
sockname = 'tabs_multiplexer'
self.PullSocket = DateDataPullSocket(
sockname,
self.codenames,
timeouts=[60.0] * len(self.codenames),
port=socketinfo.INFO[sockname]['port'])
self.PullSocket.start()
self.db_logger = ContinuousLogger(table='dateplots_tabs',
username=credentials.user,
password=credentials.passwd,
measurement_codenames=self.codenames)
self.db_logger.start()
def run(self, ):
i = 0
while not self.quit and self.multiplex_reader.isAlive():
try:
#print(i)
time.sleep(1)
for name in self.codenames:
v = self.loggers[name].read_value()
#livesocket.set_point_now(name, v)
self.PullSocket.set_point_now(name, v)
#print(i, name, v)
if self.loggers[name].read_trigged(
) and abs(v) < 9.9E+5 and v != None:
if __name__ == '__main__':
print('Log: ', i, name, v)
#print(name, v)
self.db_logger.enqueue_point_now(name, v)
self.loggers[name].clear_trigged()
except (KeyboardInterrupt, SystemExit):
self.quit = True
pass
#self.omega_temperature.close()
#report error and proceed
i += 1
self.stop()
def stop(self):
self.quit = True
self.multiplex_reader.stop()
self.PullSocket.stop()
self.db_logger.stop()
for key in self.codenames:
self.loggers[key].status['quit'] = True
# password=credentials.passwd,
# measurement_codenames=codenames)
#db_logger.daemon = True
#db_logger.start()
time.sleep(5)
run = True
while run:
time.sleep(0.25)
try:
for name in codenames:
v = loggers[name].read_value()
socket.set_point_now(name, v)
if loggers[name].read_trigged():
print v
#db_logger.enqueue_point_now(name, v)
loggers[name].clear_trigged()
print("resistance: {}, time: {}".format(v, time.time()))
except (KeyboardInterrupt, SystemExit):
print('raising error')
run = False
raise
except:
print('stoppiung everything')
run = False
reader.stop()
socket.stop()
for value, key in loggers.iteritems():
value.stop()
print('All is stopped')
from PyExpLabSys.drivers.dataq_binary import DI1110
from PyExpLabSys.common.sockets import DateDataPullSocket
if __name__ == '__main__':
dataq = DI1110('/dev/serial/by-id/usb-DATAQ_Instruments_Generic_Bulk_Device_599C2B33_DI-1110-if00-port0')
dataq.sample_rate(1000)
sleep(0.2)
dataq.scan_list([0, 1])
sleep(0.2)
CODENAMES = ['hv_psu_current', 'hv_psu_voltage']
# Pull socket
datasocket = DateDataPullSocket('hv_psu', CODENAMES, timeouts=4, port=9002)
datasocket.start()
dataq.start()
try:
while True:
dataq.clear_buffer()
sleep(0.2)
data = dataq.read()
string = 'Channel {}: {} V\tChannel {}: {} V'.format(data[0]['channel'], data[0]['value'], data[1]['channel'], data[1]['value'])
print(string)
for i in range(len(data)):
datasocket.set_point_now(CODENAMES[i], data[i]['value'])
except KeyboardInterrupt:
dataq.stop()
datasocket.stop()
def main():
""" Main function """
log = get_logger('pressure readout', level='debug')
#logging.basicConfig(filename="logger.txt", level=logging.ERROR)
#logging.basicConfig(level=logging.ERROR)
port = '/dev/serial/by-id/usb-Prolific_Technology_Inc._USB-Serial_Controller_D-if00-port'
port = '/dev/ttyUSB0'
codenames = [
'xrd_pressure_turbo_gas_system', 'xrd_pressure_gas_system_wrg',
'xrd_pressure_mass_spec_wrg', 'xrd_pressure_gas_system_baratron'
]
reader = PressureReader(port)
reader.daemon = True
reader.start()
loggers = {}
loggers[codenames[0]] = ValueLogger(reader,
comp_val=0.02,
comp_type='log',
channel=1)
loggers[codenames[1]] = ValueLogger(reader,
comp_val=0.02,
comp_type='log',
channel=2)
loggers[codenames[2]] = ValueLogger(reader,
comp_val=0.02,
comp_type='log',
channel=3)
loggers[codenames[3]] = ValueLogger(reader,
comp_val=2,
comp_type='lin',
channel=4)
for i in range(0, 4):
loggers[codenames[i]].start()
socket = DateDataPullSocket('XRD Pressure',
codenames,
timeouts=[2.0] * len(codenames))
socket.start()
log.info('DateDataPullSocket started')
live_socket = LiveSocket('XRD pressure', codenames)
live_socket.start()
log.info('LiveSocket started')
db_logger = ContinuousDataSaver(continuous_data_table='dateplots_xrd',
username=credentials.user,
password=credentials.passwd,
measurement_codenames=codenames)
db_logger.start()
log.info('ContinuousDataSaver started')
time.sleep(5)
try:
while True:
time.sleep(0.25)
for name in codenames:
value = loggers[name].read_value()
log.debug('Read codename %s value %s', name, value)
socket.set_point_now(name, value)
live_socket.set_point_now(name, value)
if loggers[name].read_trigged():
log.debug('Saved codename %s value %s', name, value)
db_logger.save_point_now(name, value)
loggers[name].clear_trigged()
except KeyboardInterrupt:
log.info('Stopping everything and waiting 5 s')
socket.stop()
live_socket.stop()
db_logger.stop()
time.sleep(5)
log.info('Everything stopped, bye!')
except Exception:
# Unexpected exception, log it
log.exception('Unexpected exception during main loop')
raise
class MySocket(threading.Thread):
""" Temperature reader """
def __init__(self):
threading.Thread.__init__(self)
self.sock = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
self.sock.settimeout(2)
self.quit = False
sockname = 'tabs_all'
self.codenames = socketinfo.INFO[sockname]['codenames']
self.PullSocket = DateDataPullSocket(
sockname,
self.codenames,
timeouts=[60.0] * len(self.codenames),
port=socketinfo.INFO[sockname]['port'])
self.PullSocket.start()
self.data = {}
for co in self.codenames:
self.data[co] = None
def run(self, ):
i = 0
while not self.quit:
try:
#print(i)
time.sleep(2)
for name in self.codenames:
v = self.loggers[name].read_value()
v = self.data[name]
self.PullSocket.set_point_now(name, v)
except (KeyboardInterrupt, SystemExit):
pass
#self.VC.stop()
#report error and proceed
i += 1
def update_values(self, ):
""" Read the temperature from a external socket server"""
for so in [
'tabs_temperatures', 'tabs_setpoints', 'tabs_pids',
'tabs_valve', 'tabs_multiplexer'
]:
try:
info = socketinfo.INFO[so]
host_port = (info['host'], info['port'])
command = 'json_wn'
self.sock.sendto(command, host_port)
data = json.loads(self.sock.recv(2048))
now = time.time()
#print(data)
for key, value in data.items():
try:
if abs(now - value[0]) > 3 * 60 or value[
1] == 'OLD_DATA': # this is 3min change to 5s
self.data[key] = None
else:
self.data[key] = value[1]
except:
self.data[key] = None
except socket.timeout:
pass
return self.data
def stop(self):
self.quit = True
self.PullSocket.stop()
def main():
""" Main function """
log = get_logger('pressure readout', level='debug')
#logging.basicConfig(filename="logger.txt", level=logging.ERROR)
#logging.basicConfig(level=logging.ERROR)
port = '/dev/serial/by-id/usb-Prolific_Technology_Inc._USB-Serial_Controller_D-if00-port'
port = '/dev/ttyUSB0'
codenames = ['xrd_pressure_turbo_gas_system', 'xrd_pressure_gas_system_wrg',
'xrd_pressure_mass_spec_wrg', 'xrd_pressure_gas_system_baratron']
reader = PressureReader(port)
reader.daemon = True
reader.start()
loggers = {}
loggers[codenames[0]] = ValueLogger(reader, comp_val=0.02, comp_type='log', channel=1)
loggers[codenames[1]] = ValueLogger(reader, comp_val=0.02, comp_type='log', channel=2)
loggers[codenames[2]] = ValueLogger(reader, comp_val=0.02, comp_type='log', channel=3)
loggers[codenames[3]] = ValueLogger(reader, comp_val=2, comp_type='lin', channel=4)
for i in range(0, 4):
loggers[codenames[i]].start()
socket = DateDataPullSocket('XRD Pressure', codenames, timeouts=[2.0] * len(codenames))
socket.start()
log.info('DateDataPullSocket started')
live_socket = LiveSocket('XRD pressure', codenames)
live_socket.start()
log.info('LiveSocket started')
db_logger = ContinuousDataSaver(continuous_data_table='dateplots_xrd',
username=credentials.user,
password=credentials.passwd,
measurement_codenames=codenames)
db_logger.start()
log.info('ContinuousDataSaver started')
time.sleep(5)
try:
while True:
time.sleep(0.25)
for name in codenames:
value = loggers[name].read_value()
log.debug('Read codename %s value %s', name, value)
socket.set_point_now(name, value)
live_socket.set_point_now(name, value)
if loggers[name].read_trigged():
log.debug('Saved codename %s value %s', name, value)
db_logger.save_point_now(name, value)
loggers[name].clear_trigged()
except KeyboardInterrupt:
log.info('Stopping everything and waiting 5 s')
socket.stop()
live_socket.stop()
db_logger.stop()
time.sleep(5)
log.info('Everything stopped, bye!')
except Exception:
# Unexpected exception, log it
log.exception('Unexpected exception during main loop')
raise
class MainDatalogger(threading.Thread):
""" Temperature reader """
def __init__(self,):
logging.info("MainDatalogger class started")
threading.Thread.__init__(self)
# from datalogger import TemperatureReader
self.quit = False
self.codenames = [
"tabs_guard_temperature_inlet",
"tabs_floor_temperature_inlet",
"tabs_ceiling_temperature_inlet",
"tabs_cooling_temperature_inlet",
]
self.MC302 = WaterTemperatureReader()
self.MC302.start()
self.codenames = ["tabs_cooling_temperature_inlet"]
self.omega_temperature = TemperatureReader(["tabs_cooling_temperature_inlet"])
self.omega_temperature.daemon = True
self.omega_temperature.start()
# omega_temperature.update_values()
time.sleep(1.5)
chlist = {
"tabs_guard_temperature_control": 0,
"tabs_room_temperature_control": 1,
#'tabs_ceiling_temperature_inlet': 2,
"tabs_cooling_temperature_inlet": 3,
}
self.loggers = {}
for key in chlist.keys():
self.loggers[key] = ValueLogger(
self.omega_temperature, comp_val=0.2, maximumtime=300, comp_type="lin", channel=chlist[key]
)
self.loggers[key].start()
chlist = {
"tabs_guard_temperature_inlet": 0,
"tabs_guard_temperature_outlet": 1,
"tabs_guard_temperature_delta": 2,
"tabs_floor_temperature_inlet": 3,
"tabs_floor_temperature_outlet": 4,
"tabs_floor_temperature_delta": 5,
"tabs_ceiling_temperature_inlet": 6,
"tabs_ceiling_temperature_outlet": 7,
"tabs_ceiling_temperature_delta": 8,
"tabs_guard_water_flow": 9,
"tabs_floor_water_flow": 10,
"tabs_ceiling_water_flow": 11,
}
for key in chlist.keys():
self.loggers[key] = ValueLogger(
self.MC302, comp_val=0.2, maximumtime=300, comp_type="lin", channel=chlist[key]
)
self.loggers[key].start()
self.codenames = self.loggers.keys()
# livesocket = LiveSocket('tabs_temperature_logger', codenames, 2)
# livesocket.start()
sockname = "tabs_temperatures"
self.PullSocket = DateDataPullSocket(
sockname, self.codenames, timeouts=[60.0] * len(self.codenames), port=socketinfo.INFO[sockname]["port"]
)
self.PullSocket.start()
self.db_logger = ContinuousLogger(
table="dateplots_tabs",
username=credentials.user,
password=credentials.passwd,
measurement_codenames=self.codenames,
)
self.db_logger.start()
def run(self,):
i = 0
while not self.quit and self.omega_temperature.isAlive():
try:
# print(i)
time.sleep(1)
for name in self.loggers.keys():
v = self.loggers[name].read_value()
# livesocket.set_point_now(name, v)
if v != None and v != 0:
self.PullSocket.set_point_now(name, v)
if self.loggers[name].read_trigged():
if __name__ == "__main__":
print("Log: ", i, name, v)
self.db_logger.enqueue_point_now(name, v)
self.loggers[name].clear_trigged()
else:
if __name__ == "__main__":
print("STA: ", i, name, v)
except (KeyboardInterrupt, SystemExit):
pass
# self.omega_temperature.close()
# report error and proceed
i += 1
self.stop()
def stop(self):
self.quit = True
self.omega_temperature.stop()
self.MC302.stop()
self.db_logger.stop()
self.PullSocket.stop()
for key in self.codenames:
self.loggers[key].status["quit"] = True
class MainPID(threading.Thread):
""" pid controller """
def __init__(self,):
logging.info('MainPID class started')
threading.Thread.__init__(self)
#from datalogger import TemperatureReader
self.quit = False
self.codenames = ['tabs_guard_pid_value',
'tabs_floor_pid_value',
'tabs_ceiling_pid_value',
'tabs_cooling_pid_value',
'tabs_guard_valve_heating',
'tabs_floor_valve_heating',
'tabs_ceiling_valve_heating',
'tabs_guard_valve_cooling',
'tabs_floor_valve_cooling',
'tabs_ceiling_valve_cooling',
'tabs_cooling_valve_cooling',
]
sockname = 'tabs_pids'
self.PullSocket = DateDataPullSocket(sockname, self.codenames, timeouts=[60.0]*len(self.codenames), port = socketinfo.INFO[sockname]['port'])
self.PullSocket.start()
self.PTC = PidTemperatureControl(self.codenames)
self.PTC.daemon = True
self.PTC.start()
#time.sleep(5)
chlist = {'tabs_guard_pid_value': 0,
'tabs_floor_pid_value': 1,
'tabs_ceiling_pid_value': 2,
'tabs_cooling_pid_value': 3,
'tabs_guard_valve_heating': 4,
'tabs_floor_valve_heating': 5,
'tabs_ceiling_valve_heating': 6,
'tabs_guard_valve_cooling': 7,
'tabs_floor_valve_cooling': 8,
'tabs_ceiling_valve_cooling': 9,
'tabs_cooling_valve_cooling': 10}
self.loggers = {}
for key in self.codenames:
self.loggers[key] = ValueLogger(self.PTC, comp_val = 0.10, maximumtime=60,
comp_type = 'lin', channel = chlist[key])
self.loggers[key].start()
#livesocket = LiveSocket('tabs_temperature_logger', codenames, 2)
#livesocket.start()
self.db_logger = ContinuousLogger(table='dateplots_tabs', username=credentials.user, password=credentials.passwd, measurement_codenames=self.codenames)
self.db_logger.start()
def run(self,):
i = 0
while not self.quit and self.PTC.isAlive():
try:
#print(i)
time.sleep(1)
for name in self.codenames:
v = self.loggers[name].read_value()
#print('Status: ', name , v)
#livesocket.set_point_now(name, v)
self.PullSocket.set_point_now(name, v)
if self.loggers[name].read_trigged():
if __name__ == '__main__':
print('Log: ', i, name, v)
#print(i, name, v)
self.db_logger.enqueue_point_now(name, v)
self.loggers[name].clear_trigged()
except (KeyboardInterrupt, SystemExit):
self.quit = True
pass
#self.PTC.stop()
#report error and proceed
i += 1
self.stop()
def stop(self):
self.quit = True
self.PTC.stop()
self.PullSocket.stop()
self.db_logger.stop()
for key in self.codenames:
self.loggers[key].status['quit'] = True
class MainDatalogger(threading.Thread):
""" Temperature reader """
def __init__(self,):
logging.info('MainDatalogger class started')
threading.Thread.__init__(self)
#from datalogger import TemperatureReader
self.quit = False
self.codenames = ['tabs_guard_temperature_inlet',
'tabs_floor_temperature_inlet',
'tabs_ceiling_temperature_inlet',
'tabs_cooling_temperature_inlet',
]
self.MC302 = WaterTemperatureReader()
self.MC302.start()
self.codenames = [
'tabs_cooling_temperature_inlet',
]
self.omega_temperature = TemperatureReader(['tabs_cooling_temperature_inlet',])
self.omega_temperature.daemon = True
self.omega_temperature.start()
#omega_temperature.update_values()
time.sleep(1.5)
chlist = {'tabs_guard_temperature_control': 0,
'tabs_room_temperature_control': 1,
#'tabs_ceiling_temperature_inlet': 2,
'tabs_cooling_temperature_inlet': 3}
self.loggers = {}
for key in chlist.keys():
self.loggers[key] = ValueLogger(self.omega_temperature, comp_val = 0.2, maximumtime=300,
comp_type = 'lin', channel = chlist[key])
self.loggers[key].start()
chlist = {'tabs_guard_temperature_inlet': 0,
'tabs_guard_temperature_outlet': 1,
'tabs_guard_temperature_delta': 2,
'tabs_floor_temperature_inlet': 3,
'tabs_floor_temperature_outlet': 4,
'tabs_floor_temperature_delta': 5,
'tabs_ceiling_temperature_inlet': 6,
'tabs_ceiling_temperature_outlet': 7,
'tabs_ceiling_temperature_delta': 8,
'tabs_guard_water_flow': 9,
'tabs_floor_water_flow': 10,
'tabs_ceiling_water_flow': 11,}
for key in chlist.keys():
self.loggers[ key] = ValueLogger(self.MC302, comp_val = 0.2, maximumtime=300,
comp_type = 'lin', channel = chlist[key])
self.loggers[key].start()
self.codenames = self.loggers.keys()
#livesocket = LiveSocket('tabs_temperature_logger', codenames, 2)
#livesocket.start()
sockname = 'tabs_temperatures'
self.PullSocket = DateDataPullSocket(sockname, self.codenames, timeouts=[60.0]*len(self.codenames), port = socketinfo.INFO[sockname]['port'])
self.PullSocket.start()
self.db_logger = ContinuousLogger(table='dateplots_tabs', username=credentials.user, password=credentials.passwd, measurement_codenames=self.codenames)
self.db_logger.start()
def run(self,):
i = 0
while not self.quit and self.omega_temperature.isAlive():
try:
#print(i)
time.sleep(1)
for name in self.loggers.keys():
v = self.loggers[name].read_value()
#livesocket.set_point_now(name, v)
if v != None and v != 0:
self.PullSocket.set_point_now(name, v)
if self.loggers[name].read_trigged():
if __name__ == '__main__':
print('Log: ', i, name, v)
self.db_logger.enqueue_point_now(name, v)
self.loggers[name].clear_trigged()
else:
if __name__ == '__main__':
print('STA: ', i, name, v)
except (KeyboardInterrupt, SystemExit):
pass
#self.omega_temperature.close()
#report error and proceed
i += 1
self.stop()
def stop(self):
self.quit = True
self.omega_temperature.stop()
self.MC302.stop()
self.db_logger.stop()
self.PullSocket.stop()
for key in self.codenames:
self.loggers[key].status['quit'] = True
class MainTui(threading.Thread):
""" Temperature reader """
def __init__(self,):
threading.Thread.__init__(self)
#from mytui import CursesTui
self.quit = False
self.codenames = ['tabs_guard_temperature_setpoint',
'tabs_floor_temperature_setpoint',
'tabs_ceiling_temperature_setpoint',
'tabs_cooling_temperature_setpoint',
]
sockname = 'tabs_setpoints'
self.PullSocket = DateDataPullSocket(sockname, self.codenames, timeouts=[60.0]*len(self.codenames), port = socketinfo.INFO[sockname]['port'])
self.PullSocket.start()
self.TUI = CursesTui(self.codenames)
self.TUI.start()
#time.sleep(5)
chlist = {'tabs_guard_temperature_setpoint': 0,
'tabs_floor_temperature_setpoint': 1,
'tabs_ceiling_temperature_setpoint': 2,
'tabs_cooling_temperature_setpoint': 3}
self.loggers = {}
for key in self.codenames:
self.loggers[key] = ValueLogger(self.TUI, comp_val = 0.2, maximumtime=60,
comp_type = 'lin', channel = chlist[key])
self.loggers[key].start()
#livesocket = LiveSocket('tabs_temperature_logger', codenames, 2)
#livesocket.start()
self.db_logger = ContinuousLogger(table='dateplots_tabs', username=credentials.user, password=credentials.passwd, measurement_codenames=self.codenames)
#print('Hostname of db logger: ' + db_logger.host)
self.db_logger.start()
def run(self):
i = 0
while not self.quit:
#print(i)
if self.TUI.isAlive():
pass
else:
print('TUI has shutdown')
self.quit = True
try:
#print(i)
time.sleep(2)
for name in self.codenames:
v = self.loggers[name].read_value()
#print('Status: ', name , v)
#livesocket.set_point_now(name, v)
self.PullSocket.set_point_now(name, v)
if self.loggers[name].read_trigged():
#if __name__ == '__main__':
# print('Log: ', i, name, v)
#print('Log: ', name, v)
self.db_logger.enqueue_point_now(name, v)
self.loggers[name].clear_trigged()
except:
print('run error')
pass
#self.TUI.stop()
#report error and proceed
i += 1
self.stop()
def stop(self):
self.quit = True
self.TUI.stop()
self.PullSocket.stop()
self.db_logger.stop()
for key in self.codenames:
self.loggers[key].status['quit'] = True
class MainMultilogger(threading.Thread):
""" Temperature reader """
def __init__(self,):
logging.info('MainMultilogger class started')
threading.Thread.__init__(self)
#from datalogger import TemperatureReader
self.quit = False
self.codenames = Setting_channel_list.keys()
"""['tabs_ceiling_temperature_delta',
'tabs_ceiling_temperature_deltaref',
'tabs_floor_temperature_delta',
'tabs_floor_temperature_deltaref',
'tabs_room_temperature_aircenter010',
'tabs_room_temperature_aircenter060',
'tabs_room_temperature_aircenter110',
'tabs_room_temperature_aircenter170',
'tabs_room_temperature_aircenter355',
'tabs_guard_temperature_airfloor',
'tabs_guard_temperature_airceiling',
'tabs_guard_temperature_airwallsouth',
'tabs_guard_temperature_airwallnorth',
'tabs_guard_temperature_airwalleast',
'tabs_guard_temperature_airwallwest',
]"""
self.multiplex_reader = MultiplexReader(self.codenames)
self.multiplex_reader.daemon = True
self.multiplex_reader.start()
#omega_temperature.update_values()
time.sleep(3.5)
chlist = Setting_channel_list
self.loggers = {}
for key in self.codenames:
self.loggers[key] = ValueLogger(self.multiplex_reader, comp_val = 0.5, maximumtime=300,
comp_type = 'lin', channel = chlist[key])
self.loggers[key].start()
#livesocket = LiveSocket('tabs_temperature_logger', codenames, 2)
#livesocket.start()
sockname = 'tabs_multiplexer'
self.PullSocket = DateDataPullSocket(sockname, self.codenames, timeouts=[60.0]*len(self.codenames), port = socketinfo.INFO[sockname]['port'])
self.PullSocket.start()
self.db_logger = ContinuousLogger(table='dateplots_tabs', username=credentials.user, password=credentials.passwd, measurement_codenames=self.codenames)
self.db_logger.start()
def run(self,):
i = 0
while not self.quit and self.multiplex_reader.isAlive():
try:
#print(i)
time.sleep(1)
for name in self.codenames:
v = self.loggers[name].read_value()
#livesocket.set_point_now(name, v)
self.PullSocket.set_point_now(name, v)
#print(i, name, v)
if self.loggers[name].read_trigged() and abs(v) < 9.9E+5 and v != None:
if __name__ == '__main__':
print('Log: ', i, name, v)
#print(name, v)
self.db_logger.enqueue_point_now(name, v)
self.loggers[name].clear_trigged()
except (KeyboardInterrupt, SystemExit):
self.quit = True
pass
#self.omega_temperature.close()
#report error and proceed
i += 1
self.stop()
def stop(self):
self.quit = True
self.multiplex_reader.stop()
self.PullSocket.stop()
self.db_logger.stop()
for key in self.codenames:
self.loggers[key].status['quit'] = True
