class OBDConnection(object): """ Class for OBD connection. Use a thread for connection. """ def __init__(self): self.obdCap = OBD_Capture() def get_capture(self): return self.obdCap # Start a thread to connect to available BT/USB serial port def connect(self): self.t = Thread(target=obd_connect, args=(self.obdCap,)) self.t.start() def is_connected(self): return self.obdCap.is_connected() def get_output(self): if self.obdCap and self.obdCap.is_connected(): return self.obdCap.capture_data() return "" def get_port(self): return self.obdCap.is_connected() def get_port_name(self): if self.obdCap: port = self.obdCap.is_connected() if port: try: return port.port.name except: pass return None def get_sensors(self): sensors = [] if self.obdCap: sensors = self.obdCap.getSupportedSensorList() return sensors
def normalCapture(): """"Run the OBD_IO script with static values to capture OBD Data""" cap = OBD_Capture() cap.connect() portState = cap.is_connected() if portState is None: print( "Cannot connect to car. Please check connections and try again.")
def showModeNumericalPanel(self): #self.value = 2.88 # Connection self.c = OBD_Capture() # Create an accelerator table lid = wx.NewId() cid = wx.NewId() rid = wx.NewId() self.Bind(wx.EVT_MENU, self.onCtrlC, id=cid) self.Bind(wx.EVT_MENU, self.onLeft, id=lid) self.Bind(wx.EVT_MENU, self.onRight, id=rid) self.accel_tbl = wx.AcceleratorTable([ (wx.ACCEL_CTRL, ord('C'), cid), (wx.ACCEL_NORMAL, wx.WXK_LEFT, lid), (wx.ACCEL_NORMAL, wx.WXK_RIGHT, rid), ]) self.SetAcceleratorTable(self.accel_tbl) # Handle events for mouse clicks self.Bind(wx.EVT_LEFT_DOWN, self.onLeft) self.Bind(wx.EVT_RIGHT_DOWN, self.onRight) # Connection self.connection = None # Sensors self.istart = 0 self.sensors = self.c.getSupportedSensorList() print 'c.getsupported sensor' print self.sensors # Port self.port = self.c.is_connected() # List to hold children widgets self.boxes = [] self.texts = []
class OBDConnection(object): """ Class for OBD connection. Use a thread for connection. """ def __init__(self): print("Class " + type(self).__name__) self.obd_capture = OBD_Capture() def get_capture(self): return self.obd_capture def connect(self): self.thread = Thread(target=obd_connect, args=(self.obd_capture,)) self.thread.start() def is_connected(self): return self.obd_capture.is_connected() def get_output(self): if self.obd_capture and self.obd_capture.is_connected(): return self.obd_capture.capture_data() return "" def get_port(self): return self.obd_capture.is_connected() def get_port_name(self): if self.obd_capture: port = self.obd_capture.is_connected() if port: try: return port.port.name except: pass return None def get_sensors(self): sensors = [] if self.obd_capture: sensors = self.obd_capture.getSupportedSensorList() return sensors
class OBDConnection(object): """ Class for OBD connection. Use a thread for connection. """ def __init__(self): self.c = OBD_Capture() def get_capture(self): return self.c def connect(self): self.t = Thread(target=obd_connect, args=(self.c,)) self.t.start() def is_connected(self): return self.c.is_connected() def get_output(self): if self.c and self.c.is_connected(): return self.c.capture_data() return "" def get_port(self): return self.c.is_connected() def get_port_name(self): if self.c: port = self.c.is_connected() if port: try: return port.PortName except: pass return None def get_sensors(self): sensors = [] if self.c: sensors = self.c.getSupportedSensorList() return sensors
def __init__(self): self.c = OBD_Capture()
class OBDConnection(object): """ Class for OBD connection. Use a thread for connection. """ def __init__(self): self.c = OBD_Capture() def get_capture(self): return self.c def connect(self): self.t = Thread(target=obd_connect, args=(self.c, )) self.t.start() # def record(self): # self.tcapt=Thread(target=obd_record, args=(self.c,)) # self.tcapt.start() def is_connected(self): return self.c.is_connected() def get_output(self): if self.c and self.c.is_connected(): print "get output" print self.c.record() return self.c.record() return "" def get_port(self): return self.c.is_connected() def get_port_name(self): if self.c: port = self.c.is_connected() if port: try: return port.port.name except: pass return None def get_sensors(self): sensors = [] if self.c: sensors = self.c.getSupportedSensorList() print "get sensors" print sensors return sensors def get_supported_sensor_list(self): supported_sensor_list = [] def get_dtc(self): dtcs = [] if self.c: dtcs = self.c.capture_dtc() return dtcs def get_dtc_f(self): dtcfs = [] if self.c: dtcfs = self.c.capture_dtc_f() return dtcfs def clear_dtc(self): result = [] if self.c: result = self.c.clear_dtc() return result #=========================================================================== # def record_data(self): # text = "" # supported_sensor_list= self.get_supported_sensor_list() # # if(self.port is None): # return None # # line="" # line = time.strftime("%x") + ";" + time.strftime("%X")+ ";" # # for supportedSensor in supported_sensor_list: # sensorIndex = supportedSensor[0] # (name, value, unit) = self.port.sensor(sensorIndex) # line += name + ";" + str(value) + ";" + str(unit) + "\n" # self.write_record(line) # return line #=========================================================================== def createRecordFile(self): self.path = os.path.dirname(__file__) self.record_path = os.path.join(self.path, 'recrods/') self.filedate = datetime.strftime(datetime.now(), '%Y-%m-%d-%H-%M-%S') self.record_file = "records-" + self.filedate + ".csv" f = open(self.record_file, 'w') f.close() if not os.path.isdir(self.record_path): os.makedirs(self.record_path) def get_record_file(self): return self.record_file def write_record(self, file_record, line): f = open(file_record, 'w') f.write(line) #Give your csv text here. f.close()
def __init__(self): print("Class " + type(self).__name__) self.obd_capture = OBD_Capture()
from obd_capture import OBD_Capture cap = OBD_Capture() cap.connect() obddata = cap.capture_data() print(obddata)
class ModeNumericalPanel(wx.Panel): def __init__(self, *args, **kwargs): #config values super(ModeNumericalPanel, self).__init__(*args, **kwargs) def showModeNumericalPanel(self): #self.value = 2.88 # Connection self.c = OBD_Capture() # Create an accelerator table lid = wx.NewId() cid = wx.NewId() rid = wx.NewId() self.Bind(wx.EVT_MENU, self.onCtrlC, id=cid) self.Bind(wx.EVT_MENU, self.onLeft, id=lid) self.Bind(wx.EVT_MENU, self.onRight, id=rid) self.accel_tbl = wx.AcceleratorTable([ (wx.ACCEL_CTRL, ord('C'), cid), (wx.ACCEL_NORMAL, wx.WXK_LEFT, lid), (wx.ACCEL_NORMAL, wx.WXK_RIGHT, rid), ]) self.SetAcceleratorTable(self.accel_tbl) # Handle events for mouse clicks self.Bind(wx.EVT_LEFT_DOWN, self.onLeft) self.Bind(wx.EVT_RIGHT_DOWN, self.onRight) # Connection self.connection = None # Sensors self.istart = 0 self.sensors = self.c.getSupportedSensorList() print 'c.getsupported sensor' print self.sensors # Port self.port = self.c.is_connected() # List to hold children widgets self.boxes = [] self.texts = [] def setConnection(self, connection): self.connection = connection def setSensors(self, sensors): self.sensors = sensors def setPort(self, port): self.port = port def getSensorsToDisplay(self, istart): """ Get at most 1 sensor to be displayed on screen. """ sensors_display = [] if istart < len(self.sensors): iend = istart + 1 sensors_display = self.sensors[istart:iend] print 'in sensors sensors_display' print sensors_display return sensors_display def ShowSensors(self): """ Display the sensors. """ print 'showsensors' sensors = self.getSensorsToDisplay(self.istart) print sensors # Destroy previous widgets for b in self.boxes: b.Destroy() for t in self.texts: t.Destroy() self.boxes = [] self.texts = [] boxSizer = wx.BoxSizer(wx.VERTICAL) self.panelbox = wx.Panel(self, wx.ID_ANY, wx.DefaultPosition, wx.DefaultSize, wx.TAB_TRAVERSAL) staticBox = wx.StaticBoxSizer( wx.StaticBox(self.panelbox, wx.ID_ANY, wx.EmptyString), wx.VERTICAL) # Create a box for each sensor for index, sensor in sensors: print 'creating boxes' (name, value, unit) = self.port.sensor(index) box = wx.StaticBox(self, -1, "Special Text Ctrl") self.boxes.append(box) self.boxSizer = wx.StaticBoxSizer(box, wx.VERTICAL) # Text for sensor value if type(value) == float: value = str("%.2f" % round(value, 3)) self.sensorData = wx.StaticText(staticBox.GetStaticBox(), wx.ID_ANY, str(value), wx.DefaultPosition, wx.DefaultSize, 0) self.sensorData.Wrap(-1) self.sensorData.SetFont(wx.Font(18, 74, 90, 90, False, "Arial")) staticBox.Add(self.sensorData, 0, wx.ALL | wx.ALIGN_CENTER_HORIZONTAL, 5) self.sensorName = wx.StaticText(staticBox.GetStaticBox(), wx.ID_ANY, name, wx.DefaultPosition, wx.DefaultSize, 0) self.sensorName.Wrap(-1) staticBox.Add(self.sensorName, 0, wx.ALL | wx.ALIGN_CENTER_HORIZONTAL, 5) # Add invisible boxes if necessary #=============================================================================== # nsensors = len(sensors) # # for i in range(1-nsensors): # print 'invisible box' # box = wx.StaticBox( self, -1, "Text" ) # self.boxSizer = wx.StaticBoxSizer(box, wx.VERTICAL) # self.boxes.append(box) # # self.sensorData = wx.StaticText( staticBox.GetStaticBox(), wx.ID_ANY, str(value), wx.DefaultPosition, wx.DefaultSize, 0 ) # self.sensorData.Wrap( -1 ) # self.sensorData.SetFont( wx.Font( 18, 74, 90, 90, False, "Arial" ) ) # # staticBox.Add( self.sensorData, 0, wx.ALL|wx.ALIGN_CENTER_HORIZONTAL, 5 ) # # self.sensorName = wx.StaticText( staticBox.GetStaticBox(), wx.ID_ANY, name, wx.DefaultPosition, wx.DefaultSize, 0 ) # self.sensorName.Wrap( -1 ) # staticBox.Add( self.sensorName, 0, wx.ALL|wx.ALIGN_CENTER_HORIZONTAL, 5 ) #=============================================================================== self.panelbox.SetSizer(staticBox) self.panelbox.Layout() staticBox.Fit(self.panelbox) boxSizer.Add(self.panelbox, 1, wx.EXPAND | wx.ALL, 5) self.SetSizer(boxSizer) self.Layout() self.Centre(wx.BOTH) # Timer for update self.timer = wx.Timer(self) self.Bind(wx.EVT_TIMER, self.refresh, self.timer) self.timer.Start(1000) def refresh(self, event): sensors = self.getSensorsToDisplay(self.istart) #self.value = self.value +10 itext = 0 for index, sensor in sensors: print 'refresh sensor' (name, value, unit) = self.port.sensor(index) if type(value) == float: value = str("%.2f" % round(value, 3)) if itext < len(self.texts): self.texts[itext * 2].SetLabel(str(value)) itext += 1 def onCtrlC(self, event): self.GetParent().Close() def onLeft(self, event): """ Get data from 1 previous sensor in the list. """ print 'onleft' #self.value = self.value -1 istart = self.istart + 1 if istart < len(self.sensors): self.istart = istart self.ShowSensors() else: istart = self.istart - 31 self.istart = istart self.ShowSensors() def onRight(self, event): """ Get data from 1 next sensor in the list. """ #self.value = self.value +1 print 'onright' istart = self.istart + 1 if istart < len(self.sensors): self.istart = istart self.ShowSensors() else: istart = self.istart - 31 self.istart = istart self.ShowSensors()
def __init__(self): self.obdCap = OBD_Capture()