def __init__(self,parent,**kwargs):
# Init
self.root = parent
ttk.Frame.__init__(self,parent,**kwargs)
# Init configuration
ttk.Style().configure("BW.TLabel")
ttk.Style().configure("BW.TButton")
self.grid(row=0,column=0,sticky="WENS")
# DistantIO api
self.model = distantio.DistantIO()
# Serial port will be our IO in this application
self.serial = distantio.SerialPort(self.model.decode_rx_data)
# Init COM port frame
self.com_ports = COM_Frame(self,self.model,relief=Tk.GROOVE)
self.com_ports.grid(column=0,row=0,sticky='NSEW',pady=2,padx=5)
# Init table frame
self.var_table = VariableTable_Frame(self,self.model,relief=Tk.GROOVE)
self.var_table.grid(column=0,row=1,sticky='NSEW',pady=2,padx=5)
# Init serial health Frame
self.health_frame = SerialHealth_Frame(self,self.model,self.root,relief=Tk.GROOVE)
self.health_frame.grid(column=0,row=2,sticky='NSEW',pady=2,padx=5)
self.com_ports.refresh_COM_ports()
self.update()
self.refresh_ports()
def __init__(self, parent, **kwargs):
# Init
self.root = parent
ttk.Frame.__init__(self, parent, **kwargs)
# Init configuration
ttk.Style().configure("BW.TLabel")
ttk.Style().configure("BW.TButton")
self.grid(row=0, column=0, sticky="WENS")
# DistantIO api
self.model = distantio.DistantIO()
# Serial port will be our IO in this application
self.serial = distantio.SerialPort(self.model.decode_rx_data)
# Init COM port frame
self.com_ports = COM_Frame(self, self.model, relief=Tk.GROOVE)
self.com_ports.grid(column=0, row=0, sticky='NSEW', pady=2, padx=5)
# Init table frame
self.var_table = VariableTable_Frame(self,
self.model,
relief=Tk.GROOVE)
self.var_table.grid(column=0, row=1, sticky='NSEW', pady=2, padx=5)
# Init serial health Frame
self.health_frame = SerialHealth_Frame(self,
self.model,
self.root,
relief=Tk.GROOVE)
self.health_frame.grid(column=0, row=2, sticky='NSEW', pady=2, padx=5)
self.com_ports.refresh_COM_ports()
self.update()
self.refresh_ports()
class Application(ttk.Frame):
def __init__(self, parent, **kwargs):
# Init
self.root = parent
ttk.Frame.__init__(self, parent, **kwargs)
# Init configuration
ttk.Style().configure("BW.TLabel")
ttk.Style().configure("BW.TButton")
self.grid(row=0, column=0, sticky="WENS")
# DistantIO api
self.model = distantio.DistantIO()
# Serial port will be our IO in this application
self.serial = distantio.SerialPort(self.model.decode_rx_data)
# Init COM port frame
self.com_ports = COM_Frame(self, self.model, relief=Tk.GROOVE)
self.com_ports.grid(column=0, row=0, sticky='NSEW', pady=2, padx=5)
# Init table frame
self.var_table = VariableTable_Frame(self,
self.model,
relief=Tk.GROOVE)
self.var_table.grid(column=0, row=1, sticky='NSEW', pady=2, padx=5)
# Init serial health Frame
self.health_frame = SerialHealth_Frame(self,
self.model,
self.root,
relief=Tk.GROOVE)
self.health_frame.grid(column=0, row=2, sticky='NSEW', pady=2, padx=5)
self.com_ports.refresh_COM_ports()
self.update()
self.refresh_ports()
def disconnect(self):
self.serial.close()
self.model.export_data()
def connect(self, port, baudrate):
self.serial.connect(port, baudrate)
def stop(self):
self.serial.close()
logging.info('SerialPort stopped.')
self.model.terminate()
logging.info('Model terminated.')
def update(self):
# Decode instructions
for i in range(20):
self.model.update()
self.root.after(10, self.update)
def refresh_ports(self):
if self.serial.connected():
self.com_ports.com_connected()
else:
self.com_ports.com_disconnected()
self.root.after(500, self.refresh_ports)
def available_ports(self):
return self.serial.get_ports()
def request_write(self, variable_id, data):
frame = self.model.request_write(variable_id, data)
self.serial.write(frame)
def request_read_all(self):
frame_generator = self.model.request_read_all()
for frame in frame_generator:
self.serial.write(frame)
def request_descriptors(self):
frame = self.model.request_descriptors()
self.serial.write(frame)
class Application(ttk.Frame):
def __init__(self,parent,**kwargs):
# Init
self.root = parent
ttk.Frame.__init__(self,parent,**kwargs)
# Init configuration
ttk.Style().configure("BW.TLabel")
ttk.Style().configure("BW.TButton")
self.grid(row=0,column=0,sticky="WENS")
# DistantIO api
self.model = distantio.DistantIO()
# Serial port will be our IO in this application
self.serial = distantio.SerialPort(self.model.decode_rx_data)
# Init COM port frame
self.com_ports = COM_Frame(self,self.model,relief=Tk.GROOVE)
self.com_ports.grid(column=0,row=0,sticky='NSEW',pady=2,padx=5)
# Init table frame
self.var_table = VariableTable_Frame(self,self.model,relief=Tk.GROOVE)
self.var_table.grid(column=0,row=1,sticky='NSEW',pady=2,padx=5)
# Init serial health Frame
self.health_frame = SerialHealth_Frame(self,self.model,self.root,relief=Tk.GROOVE)
self.health_frame.grid(column=0,row=2,sticky='NSEW',pady=2,padx=5)
self.com_ports.refresh_COM_ports()
self.update()
self.refresh_ports()
def disconnect(self):
self.serial.close()
self.model.export_data()
def connect(self,port,baudrate):
self.serial.connect(port,baudrate)
def stop(self):
self.serial.close()
logging.info('SerialPort stopped.')
self.model.terminate()
logging.info('Model terminated.')
def update(self):
# Decode instructions
for i in range(20):
self.model.update()
self.root.after(10,self.update)
def refresh_ports(self):
if self.serial.connected():
self.com_ports.com_connected()
else:
self.com_ports.com_disconnected()
self.root.after(500,self.refresh_ports)
def available_ports(self):
return self.serial.get_ports()
def request_write(self,variable_id,data):
frame = self.model.request_write(variable_id, data)
self.serial.write(frame)
def request_read_all(self):
frame_generator = self.model.request_read_all()
for frame in frame_generator:
self.serial.write(frame)
def request_descriptors(self):
frame = self.model.request_descriptors()
self.serial.write(frame)