def __init__(self, refresh=1, loginstance=None, polling=False): # Initialise the object and create the device driver threading.Thread.__init__( self) # initialise the thread for automatic monitoring self.refresh = refresh self.polling = polling self.alive = False # Set to false to permanently stop the thread that automatic monitors for received commands self.paused = False # Set to True to temporarily stop automatic monitoring of receive commands self.initialised = False # True when the device has been opened and the driver initialised successfully self.device = False # USB device class instance self.receivequeue = [] # Queue of commands received automatically self.receivequeuecount = 0 # Number of items in the receive queue self.protocol = { } # Dict containing the communications protocol for the CM19a # Set up logging if loginstance: self.log = loginstance else: # No logger instance provided so create one import logger self.log = logger.start_logging("CM19a_X10_USB", "./CM19a.log") # Find the correct USB device self.USB_device = USBdevice(self.VENDOR_ID, self.PRODUCT_ID) # save the USB instance that points to the CM19a self.device = self.USB_device.device if not self.device: print >> sys.stderr, "The CM19a is probably not plugged in or is being controlled by another USB driver." self.log.error( 'The CM19a is probably not plugged in or is being controlled by another USB driver.' ) return # Open the device for send/receive if not self._open_device(): # Device was not opened successfully return self.print_device_info() # Load the communications protocol self._load_protocol() # Initialise the device to read the remote controls self._initialise_remotes() # Start the thread for automatically polling for inbound commands # If you just send commands via the CM19a and do not need to check for incoming commands from a remote control # then set 'start' to False when the class instance is created if self.polling: self.start()
def __init__(self, refresh=1, loginstance=None, polling=False): # Initialise the object and create the device driver threading.Thread.__init__(self) # initialise the thread for automatic monitoring self.refresh = refresh self.polling = polling self.alive = False # Set to false to permanently stop the thread that automatic monitors for received commands self.paused = False # Set to True to temporarily stop automatic monitoring of receive commands self.initialised = False # True when the device has been opened and the driver initialised successfully self.device = False # USB device class instance self.receivequeue = [] # Queue of commands received automatically self.receivequeuecount = 0 # Number of items in the receive queue self.protocol = {} # Dict containing the communications protocol for the CM19a # Set up logging if loginstance: self.log = loginstance else: # No logger instance provided so create one import logger self.log = logger.start_logging("CM19a_X10_USB", "/tmp/CM19a.log") # Find the correct USB device self.USB_device = USBdevice(self.VENDOR_ID, self.PRODUCT_ID) # save the USB instance that points to the CM19a self.device = self.USB_device.device if not self.device: print >> sys.stderr, "The CM19a is probably not plugged in or is being controlled by another USB driver." self.log.error('The CM19a is probably not plugged in or is being controlled by another USB driver.') return # Open the device for send/receive if not self._open_device(): # Device was not opened successfully return self.print_device_info() # Load the communications protocol self._load_protocol() # Initialise the device to read the remote controls self._initialise_remotes() # Start the thread for automatically polling for inbound commands # If you just send commands via the CM19a and do not need to check for incoming commands from a remote control # then set 'start' to False when the class instance is created if self.polling: self.start()
def startLogging(progname="CM19a_X10_USB", logfile='./cm19a.log'): return logger.start_logging(progname, logfile)
Created on Fri Oct 13 21:04:17 2017 @author: AK """ import os import astropy.io.fits as pf import skimage as ski import numpy as np import matplotlib as mpl from matplotlib import pyplot as plt from logger import start_logging logger = start_logging('debug', fmt='') def check_params(mfiles): """ Check that all the files have the same params Input: mfiles -- iterable of filenames to stack """ for mfile in mfiles: if not os.path.exists(mfile): logger.error('No such file: {}'.format(mfile)) # par =
def __init__(self, input_file, title, measurements, graphics=False, log=False): """ Main container :param input_file: file with structural data :param title: title of the project :param measurements: list of measured degree of freedoms, like ['12X', '15Z'] :param graphics: switch for GUI :param log: switch for saving logs """ self.options = {'graphics': graphics, 'log': log} setup_folder('results') setup_folder('logs') # Labeling object if title != '': self.title = title else: self.title = input_file.replace('.str', '') # Initializing logger self.logger = start_logging(file=self.options['log'], label=self.title) self.logger.info( '*******************************************************') self.logger.info(' STARTING TRUSS UPDATER') self.logger.info('Structure: %s' % self.title) self.logger.info('Input: %s' % input_file) self.logger.info('Measured nodes: %s' % str(measurements)) self.logger.info( '*******************************************************\n') # Reading structural data, boundaries and loads (node_list, element_list, boundaries) = read_structure_file(input_file) # Setting up basic structure self.original = StructuralData(node_list, element_list) # Setting up boundaries self.boundaries = Boundaries(boundaries) # Setting up loads self.loads = Loads({'forces': [[25, -9.8]]}) # Setup Input self.measurement = ArduinoMeasurements(measurements) self.logger.debug("Calibration is mocked: set to 0") # Initiating updated structure self.updated = deepcopy(self.original) if self.options['graphics']: self.fig = plt.figure() if self.dof() == 2: self.ax = self.fig.add_subplot(111) else: self.ax = self.fig.add_subplot(111, projection='3d') # plt.axis('equal') self.fig.canvas.draw() plt.show(block=False)
import flask import os import qrcode import logger import io import time import secrets from threading import Thread from server import Server app = flask.Flask(__name__) app.debug = False app.secret_key = os.urandom(24) app_logger = logger.start_logging("root") s = Server(app_logger) token = "" class User: def __init__(self, id, username, password): self.id = id self.username = username self.password = password self.qr_codes = [] users = [] users.append(User(id=1, username='******', password='******')) users.append(User(id=2, username='******', password='******'))