本文整理汇总了Python中PyExpLabSys.common.sockets.DateDataPullSocket.start方法的典型用法代码示例。如果您正苦于以下问题:Python DateDataPullSocket.start方法的具体用法?Python DateDataPullSocket.start怎么用?Python DateDataPullSocket.start使用的例子?那么恭喜您, 这里精选的方法代码示例或许可以为您提供帮助。您也可以进一步了解该方法所在类PyExpLabSys.common.sockets.DateDataPullSocket的用法示例。
在下文中一共展示了DateDataPullSocket.start方法的15个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的Python代码示例。
示例1: main
# 需要导入模块: from PyExpLabSys.common.sockets import DateDataPullSocket [as 别名]
# 或者: from PyExpLabSys.common.sockets.DateDataPullSocket import start [as 别名]
def main():
""" Main function """
ps1 = cpx.CPX400DPDriver(1, device='/dev/ttyACM0', interface='serial')
ps2 = cpx.CPX400DPDriver(2, device='/dev/ttyACM0', interface='serial')
isotech = ips.IPS('/dev/serial/by-id/' +
'usb-Prolific_Technology_Inc._USB-Serial_Controller-if00-port0')
pullsocket = DateDataPullSocket('vhp_temp_control',
['setpoint', 'dutycycle', 'pid_p', 'pid_i', 'pid_e'],
timeouts=[999999, 3.0, 3.0, 3.0, 3.0],
port=9001)
pullsocket.start()
pushsocket = DataPushSocket('vhp_push_control', action='store_last')
pushsocket.start()
power_calc = PowerCalculatorClass(pullsocket, pushsocket)
power_calc.daemon = True
power_calc.start()
heater = HeaterClass(power_calc, pullsocket, ps1, ps2, isotech)
heater.start()
tui = CursesTui(heater, ps1)
tui.daemon = True
tui.start()示例2: main
# 需要导入模块: from PyExpLabSys.common.sockets import DateDataPullSocket [as 别名]
# 或者: from PyExpLabSys.common.sockets.DateDataPullSocket import start [as 别名]
def main():
""" Main function """
port = '/dev/serial/by-id/usb-FTDI_USB-RS485_Cable_FTWGRR44-if00-port0'
devices = ['F25600004', 'F25600005', 'F25600006', 'F25600001', 'F25600002',
'F25600003', 'F25698001']
datasocket = DateDataPullSocket('vhp_mfc_control',
devices,
timeouts=[3.0, 3.0, 3.0, 3.0, 3.0, 3.0, 3.0],
port=9000)
datasocket.start()
pushsocket = DataPushSocket('vhp_push_control', action='enqueue')
pushsocket.start()
i = 0
mfcs = {}
for device in devices:
mfcs[device] = brooks.Brooks(device, port=port)
print(mfcs[device].read_flow())
fc = FlowControl(mfcs, datasocket, pushsocket)
fc.start()
while True:
time.sleep(0.5)示例3: main
# 需要导入模块: from PyExpLabSys.common.sockets import DateDataPullSocket [as 别名]
# 或者: from PyExpLabSys.common.sockets.DateDataPullSocket import start [as 别名]
def main():
""" Main function """
tempreader = TemperatureReader()
tempreader.daemon = True
tempreader.start()
temp_logger = ValueLogger(tempreader, comp_val=1)
temp_logger.start()
db_logger = ContinuousDataSaver(continuous_data_table='dateplots_chemlab307',
username=credentials.user,
password=credentials.passwd,
measurement_codenames=['chemlab307_muffle_furnace'])
socket = DateDataPullSocket('muffle_furnace',
['chemlab307_muffle_furnace'],
timeouts=[1.0])
socket.start()
livesocket = LiveSocket('muffle_furnace', ['chemlab307_muffle_furnace'])
livesocket.start()
db_logger.start()
time.sleep(5)
while True:
time.sleep(0.25)
value = temp_logger.read_value()
socket.set_point_now('chemlab307_muffle_furnace', value)
livesocket.set_point_now('chemlab307_muffle_furnace', value)
if temp_logger.read_trigged():
print(value)
db_logger.save_point_now('chemlab307_muffle_furnace', value)
temp_logger.clear_trigged()示例4: SocketSupervisor
# 需要导入模块: from PyExpLabSys.common.sockets import DateDataPullSocket [as 别名]
# 或者: from PyExpLabSys.common.sockets.DateDataPullSocket import start [as 别名]
class SocketSupervisor(threading.Thread):
""" Supervisor will check that a list of ports are still open """
def __init__(self):
threading.Thread.__init__(self)
self.quit = False
self.ports = settings.ports
self.setup = settings.setup
self.pullsocket = DateDataPullSocket(self.setup + '-socket supervisor',
[str(port) for port in self.ports],
timeouts=len(self.ports)*[5])
self.pullsocket.start()
def run(self):
""" Main loop """
while not self.quit:
for port in self.ports:
time.sleep(1)
sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
result = sock.connect_ex(('127.0.0.1', port))
if result == 0:
self.pullsocket.set_point_now(str(port), True)
print(port, True)
else:
self.pullsocket.set_point_now(str(port), False)
print(port, False)示例5: main
# 需要导入模块: from PyExpLabSys.common.sockets import DateDataPullSocket [as 别名]
# 或者: from PyExpLabSys.common.sockets.DateDataPullSocket import start [as 别名]
def main():
""" Main function """
valve_names = [0] * 20
for i in range(0, 20):
valve_names[i] = str(i + 1)
try:
name = chr(0x03BC) # Python 3
except ValueError:
name = unichr(0x03BC) # Python 2
pullsocket = DateDataPullSocket(name + '-reacor Valvecontrol',
valve_names, timeouts=[2]*20)
pullsocket.start()
pushsocket = DataPushSocket(name + '-reactor valve control',
action='enqueue')
pushsocket.start()
valve_controller = valve_control.ValveControl(valve_names, pullsocket, pushsocket)
valve_controller.start()
while True:
time.sleep(1)
valve_controller.running = False示例6: __init__
# 需要导入模块: from PyExpLabSys.common.sockets import DateDataPullSocket [as 别名]
# 或者: from PyExpLabSys.common.sockets.DateDataPullSocket import start [as 别名]
def __init__(self):
sql_queue = queue.Queue()
self.data_saver = database_saver.SqlSaver(settings.username,
settings.username, sql_queue)
self.data_saver.start()
if settings.qmg == '420':
self.qmg = qmg420.qmg_420(settings.port)
if settings.qmg == '422':
print(settings.port)
self.qmg = qmg422.qmg_422(port=settings.port, speed=settings.speed)
try:
livesocket = LiveSocket(settings.name + '-mass-spec', ['qms-value'])
livesocket.start()
except:
livesocket = None
pullsocket = DateDataPullSocket(settings.name + '-mass-spec', ['qms-value'])
pullsocket.start()
self.qms = ms.QMS(self.qmg, sql_queue, chamber=settings.chamber,
credentials=settings.username, livesocket=livesocket,
pullsocket=pullsocket)
self.qmg.reverse_range = settings.reverse_range
self.printer = qmg_status_output.QmsStatusOutput(self.qms,
sql_saver_instance=self.data_saver)
self.printer.start()示例7: main
# 需要导入模块: from PyExpLabSys.common.sockets import DateDataPullSocket [as 别名]
# 或者: from PyExpLabSys.common.sockets.DateDataPullSocket import start [as 别名]
def main():
""" Main function """
code_names = ['pvd309_temp_dca_cell', 'pvd309_temp_mai_cell']
reader = TemperatureReader()
reader.start()
loggers = {}
loggers[code_names[0]] = ValueLogger(reader, channel=1, comp_val = 0.5, comp_type = 'lin')
loggers[code_names[0]].start()
loggers[code_names[1]] = ValueLogger(reader, channel=2, comp_val = 0.5, comp_type = 'lin')
loggers[code_names[1]].start()
datasocket = DateDataPullSocket('pvd_309_temp', code_names, timeouts=[2.0] * 2, port=9001)
datasocket.start()
livesocket = LiveSocket('pvd_309_temperatures', code_names)
livesocket.start()
db_logger = ContinuousDataSaver(continuous_data_table='dateplots_pvd309',
username=credentials.user,
password=credentials.passwd,
measurement_codenames=code_names)
db_logger.start()
time.sleep(5)
while not reader.quit:
time.sleep(0.25)
for name in code_names:
print(reader.ttl)
value = loggers[name].read_value()
datasocket.set_point_now(name, value)
livesocket.set_point_now(name, value)
if loggers[name].read_trigged():
print(name + ': ' + str(value))
db_logger.save_point_now(name, value)
loggers[name].clear_trigged()示例8: FlowControl
# 需要导入模块: from PyExpLabSys.common.sockets import DateDataPullSocket [as 别名]
# 或者: from PyExpLabSys.common.sockets.DateDataPullSocket import start [as 别名]
class FlowControl(threading.Thread):
""" Keep updated values of the current flow """
def __init__(self, mks_instance, mfcs, devices, name):
threading.Thread.__init__(self)
self.mfcs = mfcs
self.mks = mks_instance
self.pullsocket = DateDataPullSocket(name, devices, timeouts=3.0, port=9000)
self.pullsocket.start()
self.pushsocket = DataPushSocket(name, action='enqueue')
self.pushsocket.start()
self.livesocket = LiveSocket(name, devices)
self.livesocket.start()
self.running = True
def run(self):
while self.running:
time.sleep(0.1)
qsize = self.pushsocket.queue.qsize()
while qsize > 0:
element = self.pushsocket.queue.get()
mfc = list(element.keys())[0]
print(element[mfc])
print('Queue: ' + str(qsize))
self.mks.set_flow(element[mfc], self.mfcs[mfc])
qsize = self.pushsocket.queue.qsize()
for mfc in self.mfcs:
print('!!!')
flow = self.mks.read_flow(self.mfcs[mfc])
print(mfc + ': ' + str(flow))
self.pullsocket.set_point_now(mfc, flow)
self.livesocket.set_point_now(mfc, flow)示例9: main
# 需要导入模块: from PyExpLabSys.common.sockets import DateDataPullSocket [as 别名]
# 或者: from PyExpLabSys.common.sockets.DateDataPullSocket import start [as 别名]
def main():
""" Main loop """
mainpump = tp.TurboDriver(adress=1, port=settings.port)
mainpump.start()
tui = tp.CursesTui(mainpump)
tui.daemon = True
tui.start()
reader = tp.TurboReader(mainpump)
reader.daemon = True
reader.start()
time.sleep(10) # Allow reader to make meaningfull moving avarage
codenames = [settings.table_prefix + '_turbo_speed',
settings.table_prefix + '_turbo_power',
settings.table_prefix + '_turbo_current',
settings.table_prefix + '_turbo_temp_motor',
settings.table_prefix + '_turbo_temp_bottom',
settings.table_prefix + '_turbo_temp_bearings',
settings.table_prefix + '_turbo_temp_electronics']
loggers = {}
loggers[codenames[0]] = tp.TurboLogger(reader, 'rotation_speed', maximumtime=600)
loggers[codenames[1]] = tp.TurboLogger(reader, 'drive_power', maximumtime=600)
loggers[codenames[2]] = tp.TurboLogger(reader, 'drive_current', maximumtime=600)
loggers[codenames[3]] = tp.TurboLogger(reader, 'temp_motor', maximumtime=600)
loggers[codenames[4]] = tp.TurboLogger(reader, 'temp_bottom', maximumtime=600)
loggers[codenames[5]] = tp.TurboLogger(reader, 'temp_bearings', maximumtime=600)
loggers[codenames[6]] = tp.TurboLogger(reader, 'temp_electronics', maximumtime=600)
for name in codenames:
loggers[name].daemon = True
loggers[name].start()
livesocket = LiveSocket(settings.name + '-turboreader', codenames)
livesocket.start()
socket = DateDataPullSocket(settings.name + '-turboreader', codenames,
timeouts=[1.0] * len(codenames), port=9000)
socket.start()
db_logger = ContinuousDataSaver(continuous_data_table=settings.table,
username=settings.user,
password=settings.passwd,
measurement_codenames=codenames)
db_logger.start()
time.sleep(5)
while mainpump.running:
time.sleep(0.1)
for name in codenames:
value = loggers[name].read_value()
socket.set_point_now(name, value) # Notice, this is the averaged value
livesocket.set_point_now(name, value) # Notice, this is the averaged value
if loggers[name].trigged:
db_logger.save_point_now(name, value)
loggers[name].trigged = False示例10: MySocket
# 需要导入模块: from PyExpLabSys.common.sockets import DateDataPullSocket [as 别名]
# 或者: from PyExpLabSys.common.sockets.DateDataPullSocket import start [as 别名]
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()示例11: IonOpticsControl
# 需要导入模块: from PyExpLabSys.common.sockets import DateDataPullSocket [as 别名]
# 或者: from PyExpLabSys.common.sockets.DateDataPullSocket import start [as 别名]
class IonOpticsControl(threading.Thread):
""" Main optics control """
def __init__(self, port, name, lenses):
threading.Thread.__init__(self)
name = name + '_ion_optics'
self.pullsocket = DateDataPullSocket(name, lenses, timeouts=20.0)
self.pullsocket.start()
self.pushsocket = DataPushSocket(name, action='enqueue')
self.pushsocket.start()
self.ion_optics = stahl_hv_400.StahlHV400(port)
self.lenses = lenses
self.set_voltages = {}
self.actual_voltages = {}
for lens in self.lenses:
self.set_voltages[lens] = 0
self.actual_voltages[lens] = 0
self.status = {}
self.status['channel_status'] = {}
for i in range(1, len(self.lenses)+1):
self.status['channel_status'][i] = False
self.status['temperature'] = None
self.status['output_error'] = None
self.quit = False
def run(self):
current_lens = 1
while not self.quit:
self.status['temperature'] = self.ion_optics.read_temperature()
if self.status['temperature'] > 50:
for lens in self.lenses:
self.set_voltages[lens] = 0
self.status['channel_status'] = self.ion_optics.check_channel_status()
self.status['output_error'] = False in self.status['channel_status']
actual_voltage = self.ion_optics.query_voltage(current_lens)
self.actual_voltages[self.lenses[current_lens-1]] = actual_voltage
self.pullsocket.set_point_now(self.lenses[current_lens-1], actual_voltage)
if current_lens == len(self.lenses):
current_lens = 1
else:
current_lens += 1
qsize = self.pushsocket.queue.qsize()
while qsize > 0:
element = self.pushsocket.queue.get()
lens = str(list(element.keys())[0])
value = element[lens]
self.set_voltages[lens] = value
channel_number = self.lenses.index(lens) + 1
self.ion_optics.set_voltage(channel_number, value)
qsize = self.pushsocket.queue.qsize()
time.sleep(0.1)示例12: TemperatureLogger
# 需要导入模块: from PyExpLabSys.common.sockets import DateDataPullSocket [as 别名]
# 或者: from PyExpLabSys.common.sockets.DateDataPullSocket import start [as 别名]
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)示例13: main
# 需要导入模块: from PyExpLabSys.common.sockets import DateDataPullSocket [as 别名]
# 或者: from PyExpLabSys.common.sockets.DateDataPullSocket import start [as 别名]
def main():
""" Main function """
logging.basicConfig(filename="logger.txt", level=logging.ERROR)
logging.basicConfig(level=logging.ERROR)
qcm_port = ('/dev/serial/by-id/' +
'usb-Prolific_Technology_Inc._USB-Serial_Controller-if00-port0')
qcm = inficon.InficonSQM160(qcm_port)
reader = QcmReader(qcm)
reader.daemon = True
reader.start()
codenames = ['volvo_qcm_frequency',
'volvo_qcm_crystal_life',
'volvo_qcm_thickness']
loggers = {}
loggers[codenames[0]] = ValueLogger(reader, comp_val=0.1, channel=0)
loggers[codenames[0]].start()
loggers[codenames[1]] = ValueLogger(reader, comp_val=0.01, channel=1)
loggers[codenames[1]].start()
loggers[codenames[2]] = ValueLogger(reader, comp_val=0.001, channel=2)
loggers[codenames[2]].start()
socket = DateDataPullSocket('Volvo QCM', codenames, port=9000,
timeouts=[5.0] * len(codenames))
socket.start()
livesocket = LiveSocket('Volvo data logger', codenames)
livesocket.start()
db_logger = ContinuousDataSaver(continuous_data_table='dateplots_volvo',
username=credentials.user,
password=credentials.passwd,
measurement_codenames=codenames)
db_logger.start()
time.sleep(5)
while reader.isAlive():
time.sleep(0.25)
for name in codenames:
value = loggers[name].read_value()
socket.set_point_now(name, value)
livesocket.set_point_now(name, value)
if loggers[name].read_trigged():
print(value)
db_logger.save_point_now(name, value)
loggers[name].clear_trigged()示例14: main
# 需要导入模块: from PyExpLabSys.common.sockets import DateDataPullSocket [as 别名]
# 或者: from PyExpLabSys.common.sockets.DateDataPullSocket import start [as 别名]
def main():
""" Main function """
codenames = []
for channel in settings.channels.values():
channel['reader'] = SocketReaderClass(channel['host'], channel['port'],
channel['command'])
channel['reader'].start()
channel['logger'] = ValueLogger(channel['reader'], comp_val=channel['comp_value'])
channel['logger'].daemon = True
channel['logger'].start()
codenames.append(channel['codename'])
try:
port = settings.port_number
except AttributeError:
port = 9000
pullsocket = DateDataPullSocket(settings.user + '-socket_logger',
codenames, timeouts=5, port=port)
pullsocket.start()
db_logger = ContinuousDataSaver(continuous_data_table=settings.dateplot_table,
username=settings.user,
password=settings.passwd,
measurement_codenames=codenames)
db_logger.start()
time.sleep(2)
everything_ok = True
while everything_ok:
time.sleep(0.25)
for channel in settings.channels.values():
if not channel['reader'].isAlive():
everything_ok = False
# Report error here!!!
# Consider to keep program running even in case of
# socket failures
value = channel['logger'].read_value()
pullsocket.set_point_now(channel['codename'], value)
if channel['logger'].read_trigged():
print(value)
db_logger.save_point_now(channel['codename'], value)
channel['logger'].clear_trigged()示例15: main
# 需要导入模块: from PyExpLabSys.common.sockets import DateDataPullSocket [as 别名]
# 或者: from PyExpLabSys.common.sockets.DateDataPullSocket import start [as 别名]
def main():
""" Main function """
logging.basicConfig(filename="logger.txt", level=logging.ERROR)
logging.basicConfig(level=logging.ERROR)
i2c_helper = ABEHelpers()
bus = i2c_helper.get_smbus()
adc_instance = DeltaSigma(bus, 0x68, 0x69, 18)
tempreader = TemperatureReader(adc_instance)
tempreader.daemon = True
tempreader.start()
codenames = ["cooling_water_hot", "cooling_water_cold"]
loggers = {}
for i in range(0, 2):
loggers[codenames[i]] = ValueLogger(tempreader, comp_val=0.5, channel=i)
loggers[codenames[i]].start()
socket = DateDataPullSocket("hall_cooling_water_temp", codenames, timeouts=2.0)
socket.start()
live_socket = LiveSocket("hall_waterpressure", codenames)
live_socket.start()
db_logger = ContinuousDataSaver(
continuous_data_table="dateplots_hall",
username=credentials.user,
password=credentials.passwd,
measurement_codenames=codenames,
)
db_logger.start()
time.sleep(5)
while tempreader.is_alive():
time.sleep(0.25)
for name in codenames:
value = loggers[name].read_value()
socket.set_point_now(name, value)
live_socket.set_point_now(name, value)
if loggers[name].read_trigged():
print(value)
db_logger.save_point_now(name, value)
loggers[name].clear_trigged()