/*! * * Copyright (c) 2019-2020 Diality Inc. - All Rights Reserved. * \copyright * THIS CODE MAY NOT BE COPIED OR REPRODUCED IN ANY FORM, * IN PART OR IN WHOLE, * WITHOUT THE EXPLICIT PERMISSION OF THE COPYRIGHT OWNER. * * \file alarmstatus.cpp * \date 3/9/2020 * \author Behrouz NematiPour * */ #include "malarmstatus.h" using namespace Model; MAlarmStatus::MAlarmStatus() { } QString MAlarmStatus::toString() const { return QString("Alarm Status(%1, %2, %3, %4, %5)") .arg(_data.mState .value ) .arg(_data.mTop .value ) .arg(_data.mMuteTimeout .value ) .arg(_data.mEscalatesIn .value ) .arg(_data.mFlags .toString()); } void MAlarmStatus::toVariantList(QVariantList &vData) const { vData += _data.mState .value ; vData += _data.mTop .value ; vData += _data.mMuteTimeout .value ; vData += _data.mEscalatesIn .value ; for (int i = 0; i < _data.mFlags.count(); i++) { vData += _data.mFlags.at(i); } } void MAlarmStatus::fromByteArray(const QByteArray &vByteArray) { int index = 0; // message data start position Types::getValue<>(vByteArray, index, _data.mState ); Types::getValue<>(vByteArray, index, _data.mTop ); Types::getValue<>(vByteArray, index, _data.mMuteTimeout ); Types::getValue<>(vByteArray, index, _data.mEscalatesIn ); Types::getBits (vByteArray, index, _data.mFlags , eFlag_Bits_Length); } MAlarmStatus::Data MAlarmStatus::data() const { Data data; data.mState = _data.mState .value; data.mTop = _data.mTop .value; data.mMuteTimeout = _data.mMuteTimeout .value; data.mEscalatesIn = _data.mEscalatesIn .value; data.mFlags = _data.mFlags ; return data; } /** * @brief MAlarmStatus::toText * Looks up the alarm description using the alarm enum * @param val - the alarm enum (int) * @return The alarm description (QString) */ QString MAlarmStatus::toText(GuiAlarmID id) { QString result; switch (id) { case GuiAlarmID::ALARM_ID_NO_ALARM: { result = QObject::tr(""); break; } case GuiAlarmID::ALARM_ID_SOFTWARE_FAULT: { result = QObject::tr("Software Error."); break; } case GuiAlarmID::ALARM_ID_STUCK_BUTTON_TEST_FAILED: { result = QObject::tr("Indication for when no alarms is a possible situation."); break; } case GuiAlarmID::ALARM_ID_FPGA_POST_TEST_FAILED: { result = QObject::tr("FPGA POST failure."); break; } case GuiAlarmID::ALARM_ID_WATCHDOG_POST_TEST_FAILED: { result = QObject::tr("Watchdog POST failure."); break; } case GuiAlarmID::ALARM_ID_UI_COMM_POST_FAILED: { result = QObject::tr("UI communication POST failure."); break; } case GuiAlarmID::ALARM_ID_BLOOD_PUMP_MC_CURRENT_CHECK: { result = QObject::tr("Blood pump failed motor controller current check."); break; } case GuiAlarmID::ALARM_ID_BLOOD_PUMP_OFF_CHECK: { result = QObject::tr("Blood pump failed motor off check. \nMeasured speed while commanded off."); break; } case GuiAlarmID::ALARM_ID_BLOOD_PUMP_MC_DIRECTION_CHECK: { result = QObject::tr("Blood pump failed motor controller direction check."); break; } case GuiAlarmID::ALARM_ID_BLOOD_PUMP_ROTOR_SPEED_CHECK: { result = QObject::tr("Blood pump failed rotor speed check."); break; } case GuiAlarmID::ALARM_ID_DIAL_IN_PUMP_MC_CURRENT_CHECK: { result = QObject::tr("Dialysis inlet pump failed motor controller current check."); break; } case GuiAlarmID::ALARM_ID_DIAL_IN_PUMP_OFF_CHECK: { result = QObject::tr("Dialysis inlet pump failed motor off check. \nMeasured speed while commanded off."); break; } case GuiAlarmID::ALARM_ID_DIAL_IN_PUMP_MC_DIRECTION_CHECK: { result = QObject::tr("Dialysis inlet pump failed motor controller direction check."); break; } case GuiAlarmID::ALARM_ID_DIAL_IN_PUMP_ROTOR_SPEED_CHECK: { result = QObject::tr("Dialysis inlet pump failed rotor speed check."); break; } case GuiAlarmID::ALARM_ID_DIAL_OUT_PUMP_MC_CURRENT_CHECK: { result = QObject::tr("Dialysis outlet pump failed motor controller current check."); break; } case GuiAlarmID::ALARM_ID_DIAL_OUT_PUMP_OFF_CHECK: { result = QObject::tr("Dialysis outlet pump failed motor off check. \nMeasured speed while commanded off."); break; } case GuiAlarmID::ALARM_ID_DIAL_OUT_PUMP_MC_DIRECTION_CHECK: { result = QObject::tr("Dialysis outlet pump failed motor controller direction check."); break; } case GuiAlarmID::ALARM_ID_DIAL_OUT_PUMP_ROTOR_SPEED_CHECK: { result = QObject::tr("Dialysis outlet pump failed rotor speed check."); break; } case GuiAlarmID::ALARM_ID_WATCHDOG_EXPIRED: { result = QObject::tr("Watchdog expired error."); break; } case GuiAlarmID::ALARM_ID_RTC_COMM_ERROR: { result = QObject::tr("Real-time clock communication error."); break; } case GuiAlarmID::ALARM_ID_RTC_CONFIG_ERROR: { result = QObject::tr("Real-time clock configuration error."); break; } case GuiAlarmID::ALARM_ID_DG_COMM_TIMEOUT: { result = QObject::tr("Dialysate generator communication timeout."); break; } case GuiAlarmID::ALARM_ID_UI_COMM_TIMEOUT: { result = QObject::tr("User interface communication timeout."); break; } case GuiAlarmID::ALARM_ID_COMM_TOO_MANY_BAD_CRCS: { result = QObject::tr("Too many bad CRCs detected on received system messages."); break; } case GuiAlarmID::ALARM_ID_TREATMENT_STOPPED_BY_USER: { result = QObject::tr("Treatment stopped by user action - pressed stop button."); break; } case GuiAlarmID::ALARM_ID_BLOOD_SITTING_WARNING: { result = QObject::tr("Blood sitting too long warning (>4 min)."); break; } case GuiAlarmID::ALARM_ID_BLOOD_SITTING_TOO_LONG_NO_RESUME: { result = QObject::tr("Blood sitting too long alarm (>5 min)."); break; } case GuiAlarmID::ALARM_ID_BLOOD_SITTING_TOO_LONG_NO_RINSEBACK: { result = QObject::tr("Blood sitting too long alarm (>10 min)."); break; } case GuiAlarmID::ALARM_ID_CAN_MESSAGE_NOT_ACKED: { result = QObject::tr("System message needing acknowledgment was not acknowledged."); break; } case GuiAlarmID::ALARM_ID_OCCLUSION_BLOOD_PUMP: { result = QObject::tr("Blood pump occlusion detected."); break; } case GuiAlarmID::ALARM_ID_OCCLUSION_DIAL_IN_PUMP: { result = QObject::tr("Dialysate inlet pump occlusion detected."); break; } case GuiAlarmID::ALARM_ID_OCCLUSION_DIAL_OUT_PUMP: { result = QObject::tr("Dialysate outlet pump occlusion detected."); break; } case GuiAlarmID::ALARM_ID_ARTERIAL_PRESSURE_LOW: { result = QObject::tr("Arterial pressure too low during treatment."); break; } case GuiAlarmID::ALARM_ID_ARTERIAL_PRESSURE_HIGH: { result = QObject::tr("Arterial pressure too high during treatment."); break; } case GuiAlarmID::ALARM_ID_VENOUS_PRESSURE_LOW: { result = QObject::tr("Venous pressure too low during treatment."); break; } case GuiAlarmID::ALARM_ID_VENOUS_PRESSURE_HIGH: { result = QObject::tr("Venous pressure too high during treatment."); break; } case GuiAlarmID::ALARM_ID_UF_RATE_TOO_HIGH_ERROR: { result = QObject::tr("Ultrafiltration rate is too high error during treatment."); break; } case GuiAlarmID::ALARM_ID_UF_VOLUME_ACCURACY_ERROR: { result = QObject::tr("Ultrafiltration volume accuracy error during treatment."); break; } case GuiAlarmID::ALARM_ID_RTC_BATTERY_LOW: { result = QObject::tr("RTC battery low."); break; } case GuiAlarmID::ALARM_ID_RTC_OR_TIMER_ACCURACY_FAILURE: { result = QObject::tr("RTC or MCU timer inaccurate."); break; } case GuiAlarmID::ALARM_ID_RTC_RAM_OPS_ERROR: { result = QObject::tr("RTC or RAM operations failure (read or write)."); break; } case GuiAlarmID::ALARM_ID_NVDATA_EEPROM_OPS_FAILURE: { result = QObject::tr("EEPRON operations (read, write, erase) failure."); break; } case GuiAlarmID::ALARM_ID_NVDATA_MFG_RECORD_CRC_ERROR: { result = QObject::tr("Manufacturing record CRC failure."); break; } case GuiAlarmID::ALARM_ID_NVDATA_SRVC_RECORD_CRC_ERROR: { result = QObject::tr("Service record CRC failure."); break; } case GuiAlarmID::ALARM_ID_NVDATA_CAL_RECORD_CRC_ERROR: { result = QObject::tr("Calibration record CRC failure."); break; } case GuiAlarmID::ALARM_ID_NVDATA_HW_USAGE_DATA_CRC_ERROR: { result = QObject::tr("HW usage data failure."); break; } case GuiAlarmID::AlARM_ID_NVDATA_DISINFECTION_DATE_CRC_ERROR: { result = QObject::tr("Last disinfection date CRC error."); break; } case GuiAlarmID::ALARM_ID_RO_PUMP_OUT_PRESSURE_OUT_OF_RANGE: { result = QObject::tr("Pressure at outlet of RO pump is out of range."); break; } case GuiAlarmID::ALARM_ID_TEMPERATURE_SENSORS_OUT_OF_RANGE: { result = QObject::tr("DG temperature sensors ADC read out of range."); break; } case GuiAlarmID::ALARM_ID_TEMPERATURE_SENSORS_INCONSISTENT: { result = QObject::tr("DG temperature sensors values are inconsistent."); break; } case GuiAlarmID::ALARM_ID_HD_COMM_TIMEOUT: { result = QObject::tr("HD communication timeout."); break; } case GuiAlarmID::ALARM_ID_VALVE_CONTROL_FAILURE: { result = QObject::tr("FPGA not accepting commanded valve states."); break; } case GuiAlarmID::ALARM_ID_BLOOD_PUMP_FLOW_VS_MOTOR_SPEED_CHECK: { result = QObject::tr("Blood pump failed flow vs. motor speed check. \nMismatch with flow rate and rate implied by motor speed."); break; } case GuiAlarmID::ALARM_ID_DIAL_IN_PUMP_FLOW_VS_MOTOR_SPEED_CHECK: { result = QObject::tr("Dialysate inlet pump failed flow vs. motor speed check. \nMismatch with flow rate and rate implied by motor speed."); break; } case GuiAlarmID::ALARM_ID_DIAL_OUT_PUMP_FLOW_VS_MOTOR_SPEED_CHECK: { result = QObject::tr("Dialysate outlet pump failed flow vs. motor speed check. \nMismatch with flow rate and rate implied by motor speed."); break; } case GuiAlarmID::ALARM_ID_BLOOD_PUMP_MOTOR_SPEED_CHECK: { result = QObject::tr("Blood pump failed motor speed check. Measured vs. commanded."); break; } case GuiAlarmID::ALARM_ID_DIAL_IN_PUMP_MOTOR_SPEED_CHECK: { result = QObject::tr("Dialysate inlet pump failed motor speed check. Measured vs. commanded."); break; } case GuiAlarmID::ALARM_ID_DIAL_OUT_PUMP_MOTOR_SPEED_CHECK: { result = QObject::tr("Dialysate outlet pump failed motor speed check. Measured vs. commanded."); break; } case GuiAlarmID::ALARM_ID_BLOOD_PUMP_ROTOR_SPEED_TOO_HIGH: { result = QObject::tr("Blood pump rotor speed too high."); break; } case GuiAlarmID::ALARM_ID_INLET_WATER_TEMPERATURE_OUT_OF_RANGE: { result = QObject::tr("Intel water temperature out of range."); break; } default: { result = QObject::tr("Alarm Not Recognized."); break; } } return result; }