def run_sensor_cal_type(self, sensor, caltype, cal_info): completed = False logging.info('Running {} calibration for sensor {} on q330 (hostname: {})'.format(caltype.upper(), sensor, cal_info['ip'])) # create qcal thread qcal_thread = QCalThread(os.path.join(self.app_root_dir, pcgl.get_bin_root()), cal_info['cmd_line'][caltype], cal_info['output_dir']) ping_thread = PingThread(cal_info['ip']) dlg = QtWidgets.QDialog(self.app_win) dlg = ProgressDlg(self.app_win) progdlg = Ui_ProgressDlg() progdlg.setupUi(dlg) dlg.setWindowTitle('PyCal - Data Acquisition') if caltype == CALTYPE_RBLF: cal_descr = 'Calibration Signal: LOW Frequency Random Binary\n\n' + cal_info['cal_descr'] elif caltype == CALTYPE_RBHF: cal_descr = 'Calibration Signal: HIGH Frequency Random Binary\n\n' + cal_info['cal_descr'] else: msg = 'Invalid CALIBRATION TYPE:' + caltype logging.error(msg) QtWidgets.QMessageBox().critical(self.app_win, 'PyCal ERROR', msg, QtWidgets.QMessageBox().Close, QtWidgets.QMessageBox().Close) return False, None progdlgHlpr = ProgressDlgHelper(dlg, cal_descr, cal_info['cal_time'][caltype], progdlg, qcal_thread, ping_thread) progdlgHlpr.start() if (dlg.exec() == QtWidgets.QDialog.Accepted) and (progdlgHlpr.retcode == 0): completed = True msg = 'Calibration completed successfully. Miniseed file saved: {}'.format(progdlgHlpr.calmsfn) logging.info(msg) # res = QtWidgets.QMessageBox().information(self.app_win, 'PyCal', # 'Calibration Completed!\n\n' + progdlgHlpr.msg, # QtWidgets.QMessageBox().Close, # QtWidgets.QMessageBox().Close) else: completed = False msg1 = 'Calibration failed with exit code: {}'.format(progdlgHlpr.retcode) msg2 = 'Calibration failed with message: {}'.format(progdlgHlpr.msg) logging.error(msg1) logging.error(msg2) res = QtWidgets.QMessageBox().critical(self.app_win, 'PyCal', msg2, QtWidgets.QMessageBox().Close, QtWidgets.QMessageBox().Close) return completed, progdlgHlpr.calmsfn
def run_cal_B(self): if self.cur_row != -1: qtDlg = ProgressDlg() dlgUI = Ui_EstConnFrm() dlgUI.setupUi(qtDlg) qtDlg.setWindowTitle('PyCal - Connecting to Q330') wcfg = self.cfg[self.cur_row] estcomms = EstCommsDlgHelper(qtDlg, dlgUI, 'B', wcfg) if estcomms.exec() == QtWidgets.QDialog.Accepted: self.run_sensor_cal('B')
def run_analysis(self, method, *args): dlg = ProgressDlg() dlgUI = Ui_AnalysisProgressFrm() dlgUI.setupUi(dlg) dlg.setWindowTitle('PyCal - Data Analysis') dlgHlpr = AnalysisProgressDlgHelper(dlg, dlgUI) res, msg_fn, amppltfn, phapltfn = dlgHlpr.run_analysis(method, *args) if res == -1: logging.warning('Analysis canceled by user.') elif res == 0: logging.info('Analysis completed.') return res, msg_fn, amppltfn, phapltfn
def cool_off_q330(self, window_title= '', info_text='', cooling_period_seconds=330): dlg = ProgressDlg() dlgUI = Ui_CoolOffFrm() dlgUI.setupUi(dlg) dlgUI.infoLbl.setText(info_text) dlg.setWindowTitle(window_title) dlgHlpr = CoolOffDlgHelper(dlg, dlgUI) dlgHlpr.cooling_period_seconds = cooling_period_seconds success = dlgHlpr.exec() == QtWidgets.QDialog.Accepted if (success): logging.info('cool off completed.') else: logging.warning('cool off canceled by user during q330 cool off with msg: ' + info_text) return success