import wx import os import time import threading import numpy as np from pathlib import Path,PurePath from pubsub import pub # from configobj import ConfigObj from listctrl import Listctrl # from mypanel import MyPanel from mypanel import Plot from uiconfig.ui_com_setting import UI_Com_Setting from uiconfig.ui_filepath_setting import UI_Filepath_Setting from uiconfig.ui_pathsn_setting import UI_PathSN_Setting from uiconfig.ui_plot_setting import UI_Plot_Setting from uiconfig.ui_log_setting import UI_Log_Setting from uiconfig.ui_algorithm import UI_Algorithm from uiconfig.uiabout import About from uiconfig.uihelp import Help from myconfig import DeviceType,YAML_FILE_NAME,RETRIEVE_CFG_FILE from myconfig import TOKEN,DATA_DIR,FILE_MARK,OUTPUT_DIR,SAVE_EXT_NAME,CAL_DIR,PURE_WATER_FNAME from myconfig import MyConfig from configuration import Configuration # from awrams import AWRAMS,HandHeldBuf from myexception import MyException from mylogger import log from mypath import MyDir from mythread import Mythead,Multithread from readcal import ReadCal from uart import Uart # from viper import Viper from dataplot import DataPlot from myViper import MyViper,WorkMode,PureWaterData # -定义菜单ID,关联Event------------------------- """ # 菜单 文件 -- 处理文件 设备 -- 序列 波长 测量 设置 -- 串口 光程 文件路径 绘图参数 采集设置 作图 -- 最后一条曲线 最后七条 指定位置七条 帮助 """ ID_MEASURE = 1 ID_DEAL_FILE = 2 ID_DEVICE_SN = 3 ID_DEVICE_WL = 4 ID_DEVICE_LOG = 5 ID_COM_SETTING = 6 ID_PATH_SN = 7 ID_FILE_PATH = 8 ID_PLOT_SETTING = 9 ID_LOG_SETTING = 10 ID_DEVICE_STOP = 11 ID_OPEN_SERIAL = 12 ID_PLOT_ONE = 15 ID_PLOT_SEVEN = 16 ID_PLOT_RULE = 17 ID_HELP = 21 ID_ABOUT = 22 ID_ALGORITHM = 30 class YiwinFrame( wx.Frame ): '''将buf类传进来''' def __init__(self, title, parent, size=(900, 750)): self.device_id = 2 self.device_type = DeviceType.VIPER.name self.raw_wavelength = [] self.new_wavelength = [] self.device_wavelength = [] self.device_data = [] self.output_wavelength = [] self.output_wl_ndarray = np.array([]) self.syscfg = {} self.sensor_cfg = {} self.retrieve = {} self.calinfo_is_ok = False self.title = title self.dir :Path = Path() self.datadir :Path = self.dir.joinpath(DATA_DIR) self.output_dir:Path = self.datadir.joinpath(OUTPUT_DIR) self.save_fname :Path = Path() self.result = '' self.displayData:list = [] self.interval = 0 self.measure_time = time.strftime("%Y-%m-%d %H:%M:%S",time.localtime()) super(YiwinFrame, self).__init__( parent, title=self.title, size = size ) self.BoxSizer = wx.BoxSizer(wx.HORIZONTAL) # 建立一个Boxsizer self.SetSizer(self.BoxSizer) self.Centre(wx.BOTH) # 建立 listctrl panel 放到BoxSizer self.listctrl_panel = Listctrl( self ) # 调用自己建立的 Listctrl panel 类 self.BoxSizer.Add( self.listctrl_panel, proportion =-10, border = 2, flag = wx.ALL | wx.EXPAND) self.list_ctrl = self.listctrl_panel.list_ctrl # 隐藏 等待show self.listctrl_panel.Hide() self.plotpanel = Plot( self ) # 调用自己建立的 Listctrl panel 类 self.BoxSizer.Add( self.plotpanel, proportion =-10, border = 0, flag = wx.ALL | wx.EXPAND) # self.static_text = self.plotpanel.staticText1 # 隐藏 等待show self.plotpanel.Show() self.statusBar = self.CreateStatusBar() # 创建状态栏 self.statusBar.SetFieldsCount(2) # 状态栏分成3个区域 self.statusBar.SetStatusWidths([-1, -1]) # 区域宽度比列,用负数 self.statusBar.SetStatusText(u" 等待接收消息......", 0) self.__set_menu() # 添加菜单 self.__attach_events() # 菜单事件 self.__set_properties() # self.__read_config() self.__setTimer() log.info(f"system init....",__name__, "__init__") self.mycfg = MyConfig() self.__read_config() self.ui_sn = self.syscfg['device']['UISN'] self.device_sn = '' self.file_sn = '' # self.interval = self.syscfg['logsetting']['LogInterval'] # self.port = self.syscfg['comsetting']['port'] self.myviper = MyViper( sn=self.syscfg['device']['UISN'] ) self.myviper.set_cfg_viper(self.syscfg) self.mydir = MyDir() self.mycfg.set_retrieve() self.uart = Uart() # self.viper = Viper() self.dataplot = DataPlot() self.plot_pure_water() pub.subscribe( self.updateDisplay, "update") pass def __set_menu(self): ''' # 设置菜单 ''' self.menubar = wx.MenuBar() fileMenu = wx.Menu() fileMenu.Append(ID_DEAL_FILE, u'&处理文件', '...') self.menubar.Append(fileMenu, u'&文件 ') deviceMenu = wx.Menu() deviceMenu.Append(ID_OPEN_SERIAL, u'&打开串口', '...') deviceMenu.AppendSeparator() deviceMenu.Append(ID_DEVICE_SN, u'&序列号', '...') deviceMenu.AppendSeparator() deviceMenu.Append(ID_DEVICE_WL, u'&波长', '...') deviceMenu.AppendSeparator() deviceMenu.Append(ID_DEVICE_LOG, u'&采集数据', '...') deviceMenu.AppendSeparator() deviceMenu.Append(ID_DEVICE_STOP, u'&停止采集', '...') self.menubar.Append(deviceMenu, u'&设备 ') settingMenu = wx.Menu() settingMenu.Append(ID_COM_SETTING, u'&串口设置', '...') settingMenu.AppendSeparator() settingMenu.Append(ID_PATH_SN, u'&光程&序列号', ' ') settingMenu.AppendSeparator() settingMenu.Append(ID_FILE_PATH, u'&文件路径', ' ') settingMenu.AppendSeparator() settingMenu.Append(ID_PLOT_SETTING, u'&绘图设置', ' ') settingMenu.AppendSeparator() settingMenu.Append(ID_LOG_SETTING, u'&采集设置', ' ') settingMenu.AppendSeparator() settingMenu.Append(ID_ALGORITHM, u'&算法配置', ' ') self.menubar.Append(settingMenu, u'&系统设置') plotMenu = wx.Menu() plotMenu.Append( ID_PLOT_ONE, u'&最后一条', '...' ) plotMenu.AppendSeparator() plotMenu.Append( ID_PLOT_SEVEN, u'&最后七条', '...' ) plotMenu.AppendSeparator() plotMenu.Append( ID_PLOT_RULE, u'&指定七条', '...' ) self.menubar.Append(plotMenu, u'&绘图 ') aboutMenu = wx.Menu() aboutMenu.Append( ID_HELP, u'&帮助', 'help...' ) aboutMenu.AppendSeparator() aboutMenu.Append( ID_ABOUT, u'&关于我们', '关于我们...' ) self.menubar.Append( aboutMenu, u'&帮助') self.SetMenuBar(self.menubar) pass def __set_properties(self): self.SetSize((800, 600)) # self.SetTitle(u'传感器数据采集--上海奕枫仪器设备有限公司') self.Centre() def __attach_events(self): ''' # 绑定菜单事件 ''' self.Bind(wx.EVT_MENU, self.OnDealFile, id = ID_DEAL_FILE) self.Bind(wx.EVT_MENU, self.OnOpenSerial, id = ID_OPEN_SERIAL) self.Bind(wx.EVT_MENU, self.OnDeviceSN, id = ID_DEVICE_SN) self.Bind(wx.EVT_MENU, self.OnDeviceWL, id = ID_DEVICE_WL) self.Bind(wx.EVT_MENU, self.OnDeviceLog, id = ID_DEVICE_LOG) self.Bind(wx.EVT_MENU, self.OnDeviceStop, id = ID_DEVICE_STOP) self.Bind(wx.EVT_MENU, self.OnComSetting, id = ID_COM_SETTING) self.Bind(wx.EVT_MENU, self.OnPathSNSetting, id = ID_PATH_SN) self.Bind(wx.EVT_MENU, self.OnFilePathSetting, id = ID_FILE_PATH) self.Bind(wx.EVT_MENU, self.OnPlotSetting, id = ID_PLOT_SETTING) self.Bind(wx.EVT_MENU, self.OnLogSetting, id = ID_LOG_SETTING) self.Bind(wx.EVT_MENU, self.OnAlgorithm, id = ID_ALGORITHM) self.Bind(wx.EVT_MENU, self.OnPlotOne, id = ID_PLOT_ONE) self.Bind(wx.EVT_MENU, self.OnPlotSeven, id = ID_PLOT_SEVEN) self.Bind(wx.EVT_MENU, self.OnPlotRule, id = ID_PLOT_RULE) self.Bind(wx.EVT_MENU, self.OnHelpConfig, id = ID_HELP) self.Bind(wx.EVT_MENU, self.OnAboutConfig, id = ID_ABOUT) pass def __setTimer(self): self.timer = wx.Timer(self) #创建定时器,菜单以后 self.Bind(wx.EVT_TIMER, self.OnTimer, self.timer) #绑定一个定时器事件 pass def updateDisplay(self,msg): log.debug(f" updateDisplay 。。 {msg['data']}") if msg['type'] == "notice": self.__update_notice(msg['data']) pass if msg['type'] == "sn": self.__update_sn(msg['data']) pass if msg['type'] == "wl": self.__update_wl(msg['data']) pass if msg['type'] == "log": self.__update_log(msg['data'] ) print(f" ...log update ...{msg['data']} " ) pass if msg['type'] == "data": # log.info(f" ... update .{msg['data']}........... " ) self.__update_data(msg['data']) pass pass def __update_sn(self,sn): if sn != self.ui_sn: self.alterStatus_0(f" sn: {sn} 与系统sn {self.ui_sn} 一致") self.popDialog(f" sn: {sn} 与系统sn {self.ui_sn} 一致") raise MyException(f" sn: {sn} 与系统sn {self.ui_sn} 一致") else: self.alterStatus_0(f" sn: {sn} 与系统sn {self.ui_sn} 不一致") pass def __update_notice(self,msg): log.debug(f" msg : {msg}") self.alterStatus_0(msg) pass def __update_wl(self,wl): log.debug(f" 获得的波长成功 : {wl}") self.output_wavelength = wl self.alterStatus_0( f" 获得的波长成功 " ) pass def __update_log(self,d): log.info(f" 获得的数据 {d}") self.alterStatus_0( d) def __update_data( self, d ): '''对于文件过来的数据''' log.debug(f" ", __name__," __update_data") self.plotpanel.clear_past() self.plotpanel.plot_one( d['time'] ,np.array(self.myviper.viper.outputWavelength) ,np.array(d['data']) ) pass def OnStart( self, event ): log.info( f" OnStart....interval: { self.interval } minutes, port: { self.port} " ) interval_ms = int(self.interval) * 60 * 1000 self.timer.Start( interval_ms ) # 开始监测 def OnStop( self ,event ): self.timer.Stop() pass def OnTimer(self, event): ''' 定时器实现 ''' # log.info( f"OnTimer .... " ) self.__OnDeviceLog( ) pass def __read_config(self,): # 读取配置文件 self.syscfg = self.mycfg.read_yaml() retrieve = self.mycfg.read_rtv_yaml() self.syscfg.update( { "retrieve" : retrieve } ) def __read_cal_file(self,): ''' 读取 纯水文件 传参myviper ''' fpath = Path().joinpath(CAL_DIR, PURE_WATER_FNAME) if not fpath.exists(): self.myviper.set_pure_water(PureWaterData.wavelength,PureWaterData.coeff) else: _,tmp_purewater_wavelength = ReadCal.read_columns_set_by_mark( fpath, FILE_MARK, 0) _,tmp_purewater_attenuation = ReadCal.read_columns_set_by_mark( fpath, FILE_MARK, 1) self.myviper.set_pure_water(tmp_purewater_wavelength[0],tmp_purewater_attenuation[0]) def __get_raw_wavelenght_from_onefile(self,fpath, sn): ''' 读取 纯水文件 传参myviper ''' sn = ReadCal.readFileSNbyIDDevice(fpath) if sn[-4:] != self.ui_sn: raise MyException(" 标定文件SN 与系统不一致") _,tmp_wavelength = ReadCal.read_columns_set_by_mark( fpath, FILE_MARK, 0) self.raw_wavelength= tmp_wavelength[0] self.myviper.set_raw_wavelength( self.raw_wavelength ) def OnDealFile(self, e)-> None: self.myviper.set_mode(mode=WorkMode.FILEMODE) self.__OnDeviceStop() log.info( f"OnDealFile: 处理测量文件", __name__, "", "" ) ## 获取待处理文件self.file_lst fdir:Path = Path().joinpath(DATA_DIR) self.get_data_files(fdir) ## 获取波长并传参 if self.file_lst[0] is None: raise MyException(f"没有可以处理的文件!") try: self.__get_raw_wavelenght_from_onefile(self.file_lst[0],self.ui_sn) except: raise MyException(f"无法获取文件的波长信息!") ## 获取纯水标定文件 self.__read_cal_file() self.alterStatus_0("成功获取波长和标定文件。") # 线程守护 self.mt = Mythead() # self.viper.set_cfg(self.syscfg) try: self.mt.set_task( self.deal_file_lst ) self.mt.start() self.alterStatus_0(" 处理完所有文件" ) except Exception as e: self.alterStatus_0(e ) self.popDialog( e ) pass def get_data_files(self,fdir:Path) -> list: fmt="*/*.DAT" ret = [] tmp_files = fdir.glob(fmt) for tfs in tmp_files: if tfs.is_file(): ret.append(tfs) self.file_lst = ret def deal_file_lst(self, ): for fl in self.file_lst: ReadCal.read_columns_sets_by_mark_callback( fl, FILE_MARK, self.myviper.deal_measure_time_data, 1) def OnOpenSerial(self, e)-> None: self.myviper.set_mode(mode = WorkMode.DEVICEMODE) self.uart = Uart() self.uart.set_serial_para( self.myviper.viper.serailPort.port ,self.myviper.viper.serailPort.baudrate ,self.myviper.viper.serailPort.bytesize ,self.myviper.viper.serailPort.parity ,self.myviper.viper.serailPort.stopbit ) if not self.uart.connect(): raise MyException(f" 串口不可用 ") if self.uart.IsOpen(): self.uart.disconnect() self.uart_thread = Multithread() pass def OnDeviceSN(self, e)-> None: self.__OnDeviceStop() log.info(f"OnDeviceSN: 获取device sn ", __name__, "", "") self.alterStatus_0( "正在获取 SN....") if self.myviper.viper.register is None: raise MyException(f" 请先打开串口,再试") self.myviper.viper.rawWavelength =None self.uart.set_modbus( self.myviper.viper.register.slaveaddress ,self.myviper.viper.register.functioncode ,self.myviper.viper.register.SNAddress ,self.myviper.viper.register.SNLen) self.uart_thread.remove_tasks() self.uart_thread.add_task( self.__device_sn, args=() ) self.uart_thread.sequently_execute_tasks() self.myviper.viper.register.snBuf = self.res self.myviper.get_device_sn_from_buf() self.alterStatus_0( f" SN : {self.myviper.viper.deviceSN} ") pass def __device_sn(self)-> None: self.res =b'' self.uart.disconnect() self.uart.connect() self.uart.write() self.res = self.uart.OneMeasure() def OnDeviceWL(self, e)-> None: self.__OnDeviceStop() log.info(f"OnDeviceWL: 获得device wavelength ... ", __name__, "", "") self.alterStatus_0( "正在获取波长....") if self.myviper.viper.register is None: raise MyException(f" 请先打开串口,再试") if not self.myviper.devicesn_ok: raise MyException(f"设备SN {self.myviper.viper.deviceSN} 与系统SN {self.myviper.viper.SN} 不匹配") self.uart_thread.remove_tasks() self.res = b'' for i in range(self.myviper.viper.register.count): log.debug(f" -> i {i}", __name__,"OnDeviceWL") self.uart.set_modbus( self.myviper.viper.register.slaveaddress,self.myviper.viper.register.functioncode ,self.myviper.viper.register.WLBeginAddress + i*122, 122 ) log.debug(f" command -> {self.uart.command.hex()} ") self.uart_thread.add_task( self.__device_wl, args=() ) self.uart_thread.sequently_execute_tasks() # 处理self.res, 将self.res 返回 myviper self.myviper.viper.register.wavelengthBuf = self.res self.myviper.get_raw_wavelength_from_buf() def __device_wl(self, )-> None: self.uart.disconnect() self.uart.connect() self.uart.write() tmp = self.uart.OneMeasure() self.res = self.res + tmp[3:len(tmp)-2] def OnDeviceLog(self, e)-> None: self.__OnDeviceStop() log.info( f"OnDeviceLog: 采集数据 定时器采集", __name__, "", "" ) self.alterStatus_0( "开始采集数据....") if self.myviper.viper.register is None: self.alterStatus_0( " 请先打开串口,再试") raise MyException(f" 请先打开串口,再试") if not self.myviper.devicesn_ok: self.alterStatus_0( " 设备SN 与系统不匹配") raise MyException(f"设备SN 与系统不匹配") if self.myviper.viper.rawWavelength is None: raise MyException(f"没有波长信息") ## 获取纯水标定文件 self.__read_cal_file() self.__OnDeviceLog() # 如何整点获取,如何快速获取 self.timer.Start( int(self.interval) * 60 * 1000 ) pass def __OnDeviceLog(self,)-> None: self.uart_thread.remove_tasks() self.res = b'' for i in range(self.myviper.viper.register.count): log.debug(f" -> i {i}", __name__,"OnDeviceWL") self.uart.set_modbus( self.myviper.viper.register.slaveaddress,self.myviper.viper.register.functioncode ,self.myviper.viper.register.DataBeginAddress + i*122, 122 ) log.debug(f" command -> {self.uart.command.hex()} ") self.uart_thread.add_task( self.__device_log, args=() ) self.uart_thread.sequently_execute_tasks() # 处理self.res, 将self.res 返回 myviper self.myviper.viper.register.intensityBuf = self.res self.myviper.get_raw_intensity_from_buf() def __device_log(self, )-> None: # self.res =b'' self.uart.disconnect() self.uart.connect() self.uart.write() tmp = self.uart.OneMeasure() self.res = self.res + tmp[3:len(tmp)-2] # def get_device_data( self,tm, data_buf ): # if len(data_buf) != 0: # self.device_data = self.viper.convert_buf_2_float( data_buf,8 ) # self.plotpanel.clear_past() # self.plotpanel.plot_one( # tm # , self.output_wl_ndarray # ,np.array(data_buf) # ) # else: # log.error( " 采集设备数据出错 " ) # raise MyException(" 采集设备数据出错 ") # pass def OnDeviceStop(self, e)-> None: self.__OnDeviceStop() pass def __OnDeviceStop(self, )-> None: if self.timer.IsRunning(): self.timer.Stop() pass def plot_pure_water(self,): # self.dataplot.set_file_path() self.__OnDeviceStop() self.plotpanel.set_title_x_y( *self.plotpanel.purewater_legend ) time_ = time.strftime("%Y-%m-%d %H:%M:%S",time.localtime()) # wl = np.array(self.myviper.viper.purewaterWavelength) # att = np.array(self.myviper.viper.purewaterAttenuation) wl = np.array( PureWaterData.wavelength ) att = np.array( PureWaterData.coeff ) self.plotpanel.plot_one(time_, wl, att) pass def OnPlotOne(self,e): self.__OnDeviceStop() self.plotpanel.set_title_x_y( *self.plotpanel.measure_legend ) self.dataplot.set_file_path( self.output_dir.joinpath(self.ui_sn+SAVE_EXT_NAME) ) self.dataplot.set_token(TOKEN) # !! 判断波长,获得波长 wavelength:str = self.dataplot.get_first_line().strip('\n').strip('\r') self.output_wavelength = wavelength.split(TOKEN)[1:] self.output_wl_ndarray = np.array(self.output_wavelength).astype(np.float64) line = self.dataplot.get_multi_by_x_m_n(1,1,1) line = line[0].strip('\n').strip('\r').split(TOKEN) tm = line[0] line = np.array(line[1:]).astype(np.float64) self.plotpanel.axes.clear() self.plotpanel.plot_one( tm, self.output_wl_ndarray, line ) self.alterStatus_0( f" plot {tm}") pass def OnPlotSeven(self,e): self.__OnDeviceStop() self.plotpanel.set_title_x_y( *self.plotpanel.measure_legend ) times = [] lines = [] log.debug( f'+++ ', __name__, 'OnPlotSeven' ) self.dataplot.set_file_path( self.output_dir.joinpath( self.ui_sn+SAVE_EXT_NAME ) ) self.dataplot.set_token(TOKEN) # !! 判断波长,获得波长 wavelength:str = self.dataplot.get_first_line().strip('\n').strip('\r') self.output_wavelength = wavelength.split(TOKEN)[1:] self.output_wl_ndarray = np.array(self.output_wavelength).astype(np.float64) line_7 = self.dataplot.get_multi_by_x_m_n(1,1,7) # log.warning( f'+++ {line_7} ',__name__, 'OnPlotSeven' ) for line in line_7: line = line.strip('\n').strip('\r').split(TOKEN) tm = line[0] line = np.array(line[1:]).astype(np.float64) times.append(tm) lines.append( line ) self.plotpanel.axes.clear() # print(f"times =========={times}") self.plotpanel.plot_multi( times, self.output_wl_ndarray, lines ) self.alterStatus_0( f" plot last 7 ") pass def OnPlotRule(self,e): self.__OnDeviceStop() self.plotpanel.set_title_x_y( *self.plotpanel.measure_legend ) times = [] lines = [] log.debug( f'+++ ',__name__, 'OnPlotSeven' ) self.dataplot.set_file_path( self.output_dir.joinpath( self.ui_sn+SAVE_EXT_NAME ) ) self.dataplot.set_token(TOKEN) # !! 判断波长,获得波长 wavelength:str = self.dataplot.get_first_line().strip('\n').strip('\r') self.output_wavelength = wavelength.split(TOKEN)[1:] self.output_wl_ndarray = np.array(self.output_wavelength).astype(np.float64) line_7 = self.dataplot.get_multi_by_x_m_n(self.syscfg['plotsetting']['LineBegin'], self.syscfg['plotsetting']['LineInterval'], 7) # print(f"++++++++++++ {len(line_7)} {len(line_7[0])} ") # log.warning( f'+++ {line_7} ',__name__, 'OnPlotSeven' ) for line in line_7: line = line.strip('\n').strip('\r').split(TOKEN) # print(len(line)) # print(line) tm = line[0] line = np.array(line[1:]).astype(np.float64) times.append( tm ) lines.append( line ) self.plotpanel.axes.clear() self.plotpanel.plot_multi( times, self.output_wl_ndarray, lines ) self.alterStatus_0( f" plot designated ") pass def OnComSetting(self,e): with UI_Com_Setting( self, -1 ) as Dialog_Sensor_Setting: Dialog_Sensor_Setting.CenterOnParent() resultLog = Dialog_Sensor_Setting.ShowModal() if resultLog == wx.ID_OK: log.info( " COM config dialog confirm, call back " ) self.__read_config() pass def OnPathSNSetting(self,e): with UI_PathSN_Setting( self, -1 ) as Dialog_Sensor_Setting: Dialog_Sensor_Setting.CenterOnParent() resultLog = Dialog_Sensor_Setting.ShowModal() if resultLog == wx.ID_OK: log.info( " PathSN config dialog confirm, call back " ) self.__read_config() pass def OnFilePathSetting(self,e): with UI_Filepath_Setting( self, -1 ) as Dialog_Sensor_Setting: Dialog_Sensor_Setting.CenterOnParent() resultLog = Dialog_Sensor_Setting.ShowModal() if resultLog == wx.ID_OK: log.info( " FilePath config dialog confirm, call back " ) self.__read_config() pass def OnPlotSetting(self,e): with UI_Plot_Setting( self, -1 ) as Dialog_Sensor_Setting: Dialog_Sensor_Setting.CenterOnParent() resultLog = Dialog_Sensor_Setting.ShowModal() if resultLog == wx.ID_OK: log.info( " Plot config dialog confirm, call back " ) self.__read_config() pass def OnLogSetting(self,e): with UI_Log_Setting( self, -1 ) as Dialog_Sensor_Setting: Dialog_Sensor_Setting.CenterOnParent() resultLog = Dialog_Sensor_Setting.ShowModal() if resultLog == wx.ID_OK: log.info( " Log config dialog confirm, call back " ) self.__read_config() pass def OnAlgorithm(self,e): with UI_Algorithm( self, -1 ) as Dialog_Sensor_Setting: Dialog_Sensor_Setting.CenterOnParent() resultLog = Dialog_Sensor_Setting.ShowModal() if resultLog == wx.ID_OK: log.info( " Algorithm config dialog confirm, call back " ) self.__read_config() pass def OnHelpConfig(self, e): with Help( self, -1, "") as Dialog_Help: resultLog = Dialog_Help.ShowModal() if resultLog == wx.ID_OK: log.info("Help info") pass def OnAboutConfig(self, e): with About( self, -1, "") as Dialog_About: resultLog = Dialog_About.ShowModal() if resultLog == wx.ID_OK: log.info("Aboutus") pass def OnOther(self, e): pass def OnQuit(self, e): self.Close() def alterStatus_0(self,msg): self.statusBar.SetStatusText( msg, 0 ) def popDialog(self, msg, msg_type=u"错误提示"): with wx.MessageDialog( self, msg, msg_type, wx.OK )as dlg: dlg.ShowModal()