########################################################################### # # Copyright (c) 2020-2024 Diality Inc. - All Rights Reserved. # # 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 td_defs.py # # @author (last) Zoltan Miskolci # @date (last) 29-Jan-2026 # @author (original) Peter Lucia # @date (original) 04-Dec-2020 # ############################################################################ from enum import unique from aenum import extend_enum from typing import TYPE_CHECKING from .defs_base import Defs_Base from .global_vars import GlobalVariables, test_config_change from ..utils.base import DialinEnum class TD_Defs(Defs_Base): # IDE autocomplete support if TYPE_CHECKING: TDOpModes: DialinEnum TDFaultStates: DialinEnum TDServiceStates: DialinEnum TDInitStates: DialinEnum TDStandbyStates: DialinEnum TDTreatmentParamStates: DialinEnum TDPreTreatmentModesStates: DialinEnum TDTreatmentStates: DialinEnum TDPostTreatmentStates: DialinEnum TDNotLegalStates: DialinEnum TDPreTreatmentPrimeStates: DialinEnum TDDialysisStates: DialinEnum TDTreatmentParameters: DialinEnum TDEventList: DialinEnum TDEventDataTypes: DialinEnum TDAirPumpNames:DialinEnum TDAirTrapValveNames:DialinEnum TDAirTrapLevelSensorNames:DialinEnum TDAirBubbleDetectorNames:DialinEnum TDEjectorNames:DialinEnum TDPressureSensorNames:DialinEnum TDTemperatureSensorNames: DialinEnum TDSwitchNames:DialinEnum TDValveNames: DialinEnum TDMonitoredVoltages: DialinEnum TDAirPumpAttributes: DialinEnum TDAirTrapLevelSensorAttributes: DialinEnum TDAirTrapState: DialinEnum TDBloodFlowMotorAttributes: DialinEnum TDAirBubbleDetectorAttributes: DialinEnum TDEjectorAttributes: DialinEnum TDPressureSensorAttributes: DialinEnum TDSwitchStatus: DialinEnum TDValvePositions: DialinEnum TDValveStates: DialinEnum _properties = { # Operation / State enums 'TDOpModes': '_create_td_op_modes', 'TDFaultStates': '_create_td_fault_states', 'TDServiceStates': '_create_td_service_states', 'TDInitStates': '_create_td_init_states', 'TDStandbyStates': '_create_td_standby_states', 'TDTreatmentParamStates': '_create_td_treatment_param_states', 'TDPreTreatmentModesStates': '_create_td_pre_treatment_modes_states', 'TDTreatmentStates': '_create_td_treatment_states', 'TDPostTreatmentStates': '_create_td_post_treatment_states', 'TDNotLegalStates': '_create_td_not_legal_states', 'TDPreTreatmentPrimeStates': '_create_td_pre_treatment_prime_states', 'TDDialysisStates': '_create_td_dialysis_states', 'TDTreatmentParameters': '_create_td_treatment_parameters', # Event enums 'TDEventList': '_create_td_event_list', 'TDEventDataTypes': '_create_td_event_data_types', # Module Names enums 'TDAirPumpNames': '_create_td_air_pump_names', 'TDAirTrapValveNames': '_create_td_air_trap_valve_names', 'TDAirTrapLevelSensorNames': '_create_td_air_trap_level_sensor_names', 'TDAirBubbleDetectorNames': '_create_td_air_bubble_detector_names', 'TDEjectorNames': '_create_td_ejector_names', 'TDPressureSensorNames': '_create_td_pressure_sensor_names', 'TDTemperatureSensorNames': '_create_td_temperature_sensor_names', 'TDSwitchNames': '_create_td_switch_names', 'TDValveNames': '_create_td_valve_names', 'TDMonitoredVoltages': '_create_td_monitored_voltages', # Support enums 'TDAirPumpAttributes': '_create_td_air_pump_attributes', 'TDAirTrapLevelSensorAttributes': '_create_td_air_trap_level_sensor_attributes', 'TDAirTrapState': '_create_td_air_trap_state', 'TDBloodFlowMotorAttributes': '_create_td_blood_flow_motor_attributes', 'TDAirBubbleDetectorAttributes': '_create_td_air_bubble_detector_attributes', 'TDEjectorAttributes': '_create_td_ejector_attributes', 'TDPressureSensorAttributes': '_create_td_pressure_sensor_attributes', 'TDSwitchStatus': '_create_td_switch_status', 'TDValvePositions': '_create_td_valve_positions', 'TDValveStates': '_create_td_valve_states', } # ================================================== Enum Creators: Operations ================================================== def _create_td_op_modes(self): members = { # Official Name : Accepted strings 'MODE_FAUL': ['fault'], # Fault mode 'MODE_SERV': ['service'], # Service mode 'MODE_INIT': ['initialization'], # Initialization & POST mode 'MODE_STAN': ['standby'], # Standby mode 'MODE_TPAR': ['treatment parameters'], # Treatment Parameters mode 'MODE_PRET': ['pre-treatment', 'pre treatment'], # Pre-Treatment mode 'MODE_TREA': ['treatment'], # Treatment mode 'MODE_POST': ['post-treatment', 'post treatment'], # Post-Treatment mode 'MODE_NLEG': ['not legal'], # Not legal - an illegal mode transition occurred 'NUM_OF_DD_MODES': [], # Number of Modes for the DD } created_enum = unique(DialinEnum('TDOpModes', self.create_members(members))) created_enum._str_list = members created_enum.from_str = classmethod(self.from_str) return created_enum def _create_td_fault_states(self): members = { # Official Name : Accepted strings 'TD_FAULT_DEENERGIZED_STATE': ['fault deenergized', 'deenergized'], # TD Fault De-energized State 'TD_FAULT_ENERGIZED_STATE': ['fault energized', 'energized'], # TD Fault Energized State 'NUM_OF_TD_FAULT_STATES': [], # Number of fault mode states } created_enum = unique(DialinEnum('TDFaultStates', self.create_members(members))) created_enum._str_list = members created_enum.from_str = classmethod(self.from_str) return created_enum def _create_td_service_states(self): members = { # Official Name : Accepted strings 'TD_SERVICE_STATE_START': ['start', 'service start'], # Start service mode state 'NUM_OF_TD_SERVICE_STATES': [], # Number of service mode states } created_enum = unique(DialinEnum('TDServiceStates', self.create_members(members))) created_enum._str_list = members created_enum.from_str = classmethod(self.from_str) return created_enum def _create_td_init_states(self): members = { # Official Name : Accepted strings 'POST_STATE_START': ['start'], # Start initialize & POST mode state 'POST_STATE_FW_INTEGRITY': ['fw integrity'], # Run firmware integrity test state 'POST_STATE_NVDATAMGMT': ['nv data management', 'data management'], # Run NV Data Mgmt. test state 'POST_STATE_WATCHDOG': ['watchdog'], # Run watchdog test state 'POST_STATE_SAFETY_SHUTDOWN': ['safety shutdown'], # Run safety shutdown test state 'POST_STATE_BLOOD_FLOW': ['blood flow', 'blood flow test'], # Run blood flow test state 'POST_STATE_VALVES': ['valves', 'valves test'], # Run valves test state 'POST_STATE_SYRINGE_PUMP': ['syringe pump', 'syringe pump test', 'heparin test'], # Run syringe pump test state 'POST_STATE_PRES_OCCL': ['pressure', 'pressure occlusion', 'pres occl'], # Run pressure occlusion state 'POST_STATE_ALARM_AUDIO': ['alarm audio', 'alarm audio test'], # Run alarm audio test state 'POST_STATE_ALARM_LAMP': ['alarm lamp', 'alarm lamp test'], # Run alarm lamp test state 'POST_STATE_TEMPERATURES': ['temperatures'], # Run temperatures POST state 'POST_STATE_FANS': ['fans'], # Run fans POST state 'POST_STATE_STUCK_BUTTON': ['button', 'button stuck', 'stuck button test'], # Run stuck button test state 'POST_STATE_UI_POST': ['ui post'], # Check whether UI passed its POST tests 'POST_STATE_FW_COMPATIBILITY': ['fw compatibility'], # Run firmware compatibility test state 'POST_STATE_FPGA': ['fpga'], # Run FPGA test state 'POST_STATE_COMPLETED': ['completed'], # POST self-tests completed state 'POST_STATE_FAILED': ['failed'], # POST self-tests failed state 'NUM_OF_POST_STATES': [], # Number of initialize & POST mode states } created_enum = unique(DialinEnum('TDInitStates', self.create_members(members))) created_enum._str_list = members created_enum.from_str = classmethod(self.from_str) return created_enum def _create_td_standby_states(self): members = { # Official Name : Accepted strings 'STANDBY_START_STATE': ['start'], # Start standby (home actuators). 'STANDBY_WAIT_FOR_TREATMENT_STATE': ['wait for treatment'], # Wait for treatment. 'STANDBY_WAIT_FOR_DISINFECT_STATE': ['wait for disinfect', 'wait for heat disinfect'], # Wait for UI to send disinfect option. 'STANDBY_WAIT_FOR_DG_CLEANING_MODE_CMD_RESPONSE_STATE': ['wait for cleaning command response'], # Wait for DG cleaning mode command response state. 'STANDBY_WAIT_FOR_DG_CLEANING_MODE_TO_START_STATE': ['wait for cleaning to start'], # Wait for DG cleaning mode to start state. 'STANDBY_CLEANING_MODE_IN_PROGRESS_STATE': ['cleaning mode in progress', 'cleaning in progress'], # Cleaning mode in progress state. 'NUM_OF_STANDBY_STATES': [], # Number of standby states (sub-modes). } created_enum = unique(DialinEnum('TDStandbyStates', self.create_members(members))) created_enum._str_list = members created_enum.from_str = classmethod(self.from_str) return created_enum def _create_td_treatment_param_states(self): members = { # Official Name : Accepted strings 'TD_TREATMENT_PARAMS_MODE_STATE_WAIT_4_UI_2_SEND': ['send'], # Wait for UI to send treatment params mode state 'TD_TREATMENT_PARAMS_MODE_STATE_WAIT_4_UI_2_CONFIRM': ['confirm'], # Wait for UI to confirm treatment params mode state 'NUM_OF_TD_TREATMENT_PARAMS_MODE_STATES': [], # Number of treatment params mode states } created_enum = unique(DialinEnum('TDTreatmentParamStates', self.create_members(members))) created_enum._str_list = members created_enum.from_str = classmethod(self.from_str) return created_enum def _create_td_pre_treatment_modes_states(self): members = { # Official Name : Accepted strings 'TD_PRE_TREATMENT_WATER_SAMPLE_STATE': ['water sample'], # Water sample state 'TD_PRE_TREATMENT_SELF_TEST_CONSUMABLE_STATE': ['self test consumable'], # Consumable self-tests state 'TD_PRE_TREATMENT_SELF_TEST_NO_CART_STATE': ['self test no cartridge'], # No cartridge self-tests state 'TD_PRE_TREATMENT_CART_INSTALL_STATE': ['cartridge install'], # Consumable and cartridge installation state 'TD_PRE_TREATMENT_SELF_TEST_DRY_STATE': ['self test dry', 'dry self test'], # Self-tests when the cartridge is dry state 'TD_PRE_TREATMENT_PRIME_STATE': ['prime', 'blood priming', 'priming'], # Prime blood and dialysate circuits and run wet self-tests state 'TD_PRE_TREATMENT_RECIRCULATE_STATE': ['recirculate'], # Re-circulate blood and dialysate circuits state 'TD_PRE_TREATMENT_PATIENT_CONNECTION_STATE': ['patient connect'], # Patient connection state 'NUM_OF_TD_PRE_TREATMENT_STATES': [], # Number of pre-treatment mode states } created_enum = unique(DialinEnum('TDPreTreatmentModesStates', self.create_members(members))) created_enum._str_list = members created_enum.from_str = classmethod(self.from_str) return created_enum def _create_td_treatment_states(self): members = { # Official Name : Accepted strings 'TREATMENT_START_STATE': ['start'], # Start treatment - initialize treatment and go to blood prime state 'TREATMENT_BLOOD_PRIME_STATE': ['blood prime', 'priming'], # Prime blood-side of dialyzer with gradual ramp for 1 min. while dialyzer is bypassed. No dialysis or UF taking place. No treatment time. 'TREATMENT_DIALYSIS_STATE': ['dialysis'], # Perform dialysis. Deliver UF as prescribed. 'TREATMENT_PAUSED_STATE': ['paused'], # Treatment paused. All pumps off. Dializer bypassed 'TREATMENT_RINSEBACK_STATE': ['rinseback'], # Perform rinseback with saline. Dialyzer bypassed. Dialysate recirculating 'TREATMENT_RECIRC_STATE': ['recirc', 'recirculate'], # Recirculate saline and dialysate while patient disconnected. Blood lines open and shunted. Dialyzer is bypassed 'TREATMENT_END_STATE': ['end'], # Dialysis has ended. Blood pump slowed. Dialyzer is bypassed. Dialysate is recirculated. User can rinseback 'TREATMENT_ISO_UF_STATE': ['iso uf', 'isolated uf', 'isolated ultrafiltration'], # Isolated ultrafiltration. No dialysate flow. Ultrafiltration only. 'TREATMENT_SALINE_BOLUS_STATE': ['saline bolus', 'deliver saline bolus'], # Deliver a saline bolus. Blood pump draws from saline bag. Dialyzer bypassed. 'TREATMENT_DIALYSATE_PAUSED_STATE': ['dialysate paused'], # No dialysate flow. Dialyzer bypassed. 'NUM_OF_TREATMENT_STATES': [], # Number of treatment states (sub-modes) } created_enum = unique(DialinEnum('TDTreatmentStates', self.create_members(members))) created_enum._str_list = members created_enum.from_str = classmethod(self.from_str) return created_enum def _create_td_post_treatment_states(self): members = { # Official Name : Accepted strings 'TD_POST_TREATMENT_DRAIN_RESERVOIRS_STATE': ['drain reservoirs'], # Drain reservoirs state 'TD_POST_TREATMENT_PATIENT_DISCONNECTION_STATE': ['patient disconnect'], # Patient disconnection state 'TD_POST_TREATMENT_DISPOSABLE_REMOVAL_STATE': ['disposable removal'], # Disposable removal state 'TD_POST_TREATMENT_VERIFY_STATE': ['verify'], # Verify cartridge removed, syringe removed, and reservoirs drained state 'NUM_OF_TD_POST_TREATMENT_STATES': [], # Number of post-treatment mode states } created_enum = unique(DialinEnum('TDPostTreatmentStates', self.create_members(members))) created_enum._str_list = members created_enum.from_str = classmethod(self.from_str) return created_enum def _create_td_not_legal_states(self): members = { # Official Name : Accepted strings 'NUM_OF_NOT_LEGAL_STATES': [], # Number of Not Legal states } created_enum = unique(DialinEnum('TDNotLegalStates', self.create_members(members))) created_enum._str_list = members created_enum.from_str = classmethod(self.from_str) return created_enum def _create_td_event_list(self): members = { # Official Name : Accepted strings 'TD_EVENT_STARTUP': ['startup'], # TD startup event 'TD_EVENT_OP_MODE_CHANGE': ['op mode change', 'operation mode change'], # TD Op mode change event 'TD_EVENT_SUB_MODE_CHANGE': ['sub mode change'], # TD Op sub-mode change event 'TD_EVENT_DRY_SELF_TEST_CARTRIDGE_RESULT': ['dry self test cartridge result'], # TD dry self test cartridge result 'TD_EVENT_DRY_SELF_TEST_PRESSURE_RESULT': ['dry self test pressure result'], # TD dry self test pressure result 'TD_EVENT_WET_SELF_TEST_DISPLACEMENT_RESULT': ['wet self test displacement result'], # TD wet self test displacement result 'TD_EVENT_CPU_RAM_ERROR_STATUS': ['cpu ram error'], # TD CPU RAM error status 'TD_EVENT_CAL_RECORD_UPDATE': ['cal record update', 'calibration record update'], # TD new calibration record updated 'TD_EVENT_SYSTEM_RECORD_UPDATE': ['system record update'], # TD new system record has been updated 'TD_EVENT_SERVICE_UPDATE': ['service update', 'service record update'], # TD new service record has been updated 'TD_EVENT_USAGE_INFO_UPDATE': ['usage info update'], # TD new usage information has been updated 'TD_EVENT_SW_CONFIG_UPDATE': ['sw config update', 'software config update'], # TD new software configuration has been updated 'TD_EVENT_BUTTON': ['button', 'button press', 'button release'], # TD button pressed/released 'TD_EVENT_SAFETY_LINE': ['safety line'], # TD safety line pulled/released 'TD_EVENT_SUB_STATE_CHANGE': ['sub state change'], # TD Op sub-state change event 'TD_EVENT_RSRVR_UF_RATE': ['rsrvr uf rate', 'ultrafiltration rate change'], # TD ultrafiltration measured and expected rates 'TD_EVENT_OPERATION_STATUS': ['operation status'], # TD operation status event. 'TD_EVENT_AIR_TRAP_FILL': ['air trap fill'], # TD initiated an air trap fill (opened VBT briefly). 'TD_EVENT_AIR_TRAP_LOWER': ['air trap lower'], # TD started/stopped an air trap lower level operation 'TD_EVENT_AIR_PUMP_ON_OFF': ['air pump', 'air pump on', 'air pump off'], # TD turned air pump on or off. 'TD_EVENT_DRY_SELF_TEST_PRESSURE_DECAY_WAIT_PERIOD': ['dry self test pressure decay wait period'], # TD dry self test pressure decay wait period 'TD_EVENT_INSTIT_RECORD_UPDATE': ['instit record update', 'institutional record update'], # TD new institutional record has been updated. 'TD_EVENT_VALVE_POS_CHANGE': ['valve position change', 'valve pos change'], # TD pinch valve position change 'TD_EVENT_VALVE_HOMED_POS_SETTING': ['valve homed to positions'], # TD pinch valve homed encoder positions for A/B/C 'NUM_OF_EVENT_IDS': [], # Total number of TD events } created_enum = unique(DialinEnum('TDEventList', self.create_members(members))) created_enum._str_list = members created_enum.from_str = classmethod(self.from_str) return created_enum def _create_td_event_data_types(self): members = { # Official Name : Accepted strings 'EVENT_DATA_TYPE_NONE': ['none'], # No Event Data Type 'EVENT_DATA_TYPE_U32': ['u32'], # Unsigned 32bit Event Data Type 'EVENT_DATA_TYPE_S32': ['s32'], # Signed 32bit Event Data Type 'EVENT_DATA_TYPE_F32': ['f32'], # Float 32bit Event Data Type 'EVENT_DATA_TYPE_BOOL': ['bool', 'boolean'], # Boolean Event Data Type 'NUM_OF_EVENT_DATA_TYPES': [], # Number of Event Data Types } created_enum = unique(DialinEnum('TDEventDataTypes', self.create_members(members))) created_enum._str_list = members created_enum.from_str = classmethod(self.from_str) return created_enum # ================================================== Enum Creators: Operations Sub-Modes ================================================== def _create_td_pre_treatment_prime_states(self): members = { # Official Name : Accepted strings 'TD_PRIME_WAIT_FOR_USER_START_STATE': ['wait for user', 'wait for user to start'], # Wait for user to start prime state 'TD_PRIME_SALINE_SETUP_STATE': ['saline setup', 'saline bolus setup'], # Saline setup state 'TD_PRIME_SALINE_PURGE_AIR_STATE': ['saline purge air', 'saline bolus air purge'], # Saline purge air state 'TD_PRIME_SALINE_CIRC_BLOOD_CIRCUIT_STATE': ['saline circulate blood', 'saline bolus circulate blood'], # Circulate blood circuit state 'TD_PRIME_RESERVOIR_ONE_FILL_COMPLETE_STATE': ['reservoir 1 fill complete'], # Wait for reservoir 1 fill complete 'TD_PRIME_DIALYSATE_DIALYZER_STATE': ['dialysate dialyzer', 'dialyzer setup'], # Dialysate dialyzer fluid path state 'TD_PRIME_SALINE_DIALYZER_SETUP_STATE': ['fill dialyzer with saline bolus', 'saline dialyzer setup'], # Saline dialyzer setup state 'TD_PRIME_SALINE_DIALYZER_STATE': ['saline dialyzer'], # Saline dialyzer fluid path state 'TD_PRIME_RESERVOIR_TWO_FILL_COMPLETE_STATE': ['reservoir 2 fill complete'], # Wait for reservoir 2 fill complete 'TD_PRIME_DIALYSATE_BYPASS_STATE': ['dialysate bypass'], # Dialysate bypass fluid path state 'TD_PRIME_WET_SELF_TESTS_STATE': ['wet sekf tests'], # Perform wet self-tests after priming complete 'TD_PRIME_PAUSE': ['prime paused', 'priming paused'], # Prime pause state, waits to be resumed 'TD_PRIME_COMPLETE': ['prime completed', 'priming completed'], # Prime complete state 'NUM_OF_TD_PRIME_STATES': [], # Number of prime sub-mode states } created_enum = unique(DialinEnum('TDPreTreatmentPrimeStates', self.create_members(members))) created_enum._str_list = members created_enum.from_str = classmethod(self.from_str) return created_enum def _create_td_dialysis_states(self): members = { # Official Name : Accepted strings 'DIALYSIS_UF_STATE': ['ultrafiltration state'], # Ultrafiltration state of the dialysis sub-mode state machine 'DIALYSIS_UF_PAUSED_STATE': ['paused', 'ultrafiltration paused'], # Ultrafiltration Paused state of the dialysis sub-mode state machine 'NUM_OF_DIALYSIS_STATES': [], # Number of dialysis sub-mode states } created_enum = unique(DialinEnum('TDDialysisStates', self.create_members(members))) created_enum._str_list = members created_enum.from_str = classmethod(self.from_str) return created_enum def _create_td_treatment_parameters(self): members = { # Official Name : Accepted strings 'TREATMENT_PARAM_BLOOD_FLOW': ['blood flow', 'blood flow rate'], # Blood flow rate (in mL/min) 'TREATMENT_PARAM_DIALYSATE_FLOW': ['sialysate flow', 'dialysate flow rate'], # Dialysate flow rate (in mL/min) 'TREATMENT_PARAM_TREATMENT_DURATION': ['treatment duration'], # Treatment duration (in minutes) 'TREATMENT_PARAM_SALINE_BOLUS_VOLUME': ['saline bolus volume'], # Saline bolus volume (in mL) 'TREATMENT_PARAM_HEPARIN_STOP_TIME': ['heparin stop time'], # Heparin stop time (in minutes) 'TREATMENT_PARAM_HEPARIN_TYPE': ['heparin', 'heparin type'], # Heparin type (enum) 'TREATMENT_PARAM_ACID_CONCENTRATE': ['acid', 'acid concentrate'], # Acid concentrate type (enum) 'TREATMENT_PARAM_BICARB_CONCENTRATE': ['bicarb', 'bicarb concentrate'], # Bicarbonate concentrate type (enum) 'TREATMENT_PARAM_DIALYZER_TYPE': ['dialyzer', 'dialyzer type'], # Dialysate type (enum) 'TREATMENT_PARAM_BP_MEAS_INTERVAL': ['blood pressure measure interval', 'bp measure interval'], # Blood pressure measurement interval (in minutes) 'TREATMENT_PARAM_RINSEBACK_FLOW_RATE': ['rinseback flow rate'], # Rinseback flow rate (in mL/min) 'TREATMENT_PARAM_RINSEBACK_VOLUME': ['rinseback volume'], # Rinseback volume (in mL) 'TREATMENT_PARAM_ART_PRES_LIMIT_WINDOW': ['arterial pressure limit window'], # Arterial pressure alarm limit window (in mmHg) 'TREATMENT_PARAM_VEN_PRES_LIMIT_WINDOW': ['venous pressure limit window'], # Venous pressure alarm limit window (in mmHg) 'TREATMENT_PARAM_VEN_PRES_LIMIT_ASYMMETRIC': ['venous asymmetric pressure limit'], # Venous pressure alarm limit asymmetric (in mmHg) 'TREATMENT_PARAM_TMP_PRES_LIMIT_WINDOW': ['tmp pres limit window'], # TMP alarm limit window (in mmHg) 'TREATMENT_PARAM_DIALYSATE_TEMPERATURE': ['dialysate temperature'], # Dialysate temperature (in degC) 'TREATMENT_PARAM_HEPARIN_DISPENSE_RATE': ['heparin dispense rate'], # Heparin dispense rate (in mL/hr) 'TREATMENT_PARAM_HEPARIN_BOLUS_VOLUME': ['heparin volume'], # Heparin bolus volume (in mL) 'TREATMENT_PARAM_UF_VOLUME': ['uf volume', 'ultrafiltration volume'], # Ultrafiltration volume (in liters) - provided separately by UI 'NUM_OF_TREATMENT_PARAMS': [], # Total number of treatment parameters } created_enum = unique(DialinEnum('TDTreatmentParameters', self.create_members(members))) created_enum._str_list = members created_enum.from_str = classmethod(self.from_str) return created_enum # ================================================== Enum Creators: Names ================================================== def _create_td_air_pump_names(self): members = { # Official Name : Accepted strings 'H12_AIR_PUMP': ['h12', 'air pump'], # TD Air Pump 'NUM_OF_AIR_PUMPS': [], # Number of TD Air pumps } created_enum = unique(DialinEnum('TDAirPumpNames', self.create_members(members))) created_enum._str_list = members created_enum.from_str = classmethod(self.from_str) return created_enum def _create_td_air_trap_valve_names(self): members = { # Official Name : Accepted strings 'H13_VALV': ['h13', 'intake', 'in'], # Air trap intake valve 'H20_VALV': ['h20', 'outlet', 'out'], # Air trap outlet valve 'NUM_OF_AIR_TRAP_VALVES': [], # Number of Air Trap Valves } created_enum = unique(DialinEnum('TDAirTrapValveNames', self.create_members(members))) created_enum._str_list = members created_enum.from_str = classmethod(self.from_str) return created_enum def _create_td_air_trap_level_sensor_names(self): members = { # Official Name : Accepted strings 'H17_LEVEL': ['h17', 'lower sensor', 'lower'], # Lower Level Sensor 'H16_LEVEL': ['h16', 'upper sensor', 'upper'], # Upper Level Sensor 'NUM_OF_AIR_TRAP_LEVEL_SENSORS': [], # Number of TD Air Trap Level Sensors } created_enum = unique(DialinEnum('TDAirTrapLevelSensorNames', self.create_members(members))) created_enum._str_list = members created_enum.from_str = classmethod(self.from_str) return created_enum def _create_td_air_bubble_detector_names(self): members = { # Official Name : Accepted strings 'H18_ADV': ['h18', 'bubble detector'], # H18 Air Bubble Detector Venous 'NUM_OF_AIR_BUBBLE_DETECTORS': [], # Number of Air Bubble Detectors } created_enum = unique(DialinEnum('TDAirBubbleDetectorNames', self.create_members(members))) created_enum._str_list = members created_enum.from_str = classmethod(self.from_str) return created_enum def _create_td_ejector_names(self): members = { # Official Name : Accepted strings 'H5_MOTOR': ['h5', 'ejector'], # TD Ejector Motor 'NUM_OF_EJECTOR_MOTORS': [], # Number of Ejector Motors } created_enum = unique(DialinEnum('TDEjectorNames', self.create_members(members))) created_enum._str_list = members created_enum.from_str = classmethod(self.from_str) return created_enum def _create_td_pressure_sensor_names(self): members = { # Official Name : Accepted strings 'H2_PRES': ['h2'], # Arterial Pressure Sensor 'H14_PRES': ['h14'], # Venous Pressure Sensor 'H23_PRES': ['h23'], # Barometric Pressure Sensor 'NUM_OF_PRESSURE_SENSORS': [], # Number of Pressure Sensors } created_enum = unique(DialinEnum('TDPressureSensorNames', self.create_members(members))) created_enum._str_list = members created_enum.from_str = classmethod(self.from_str) return created_enum def _create_td_temperature_sensor_names(self): members = { # Official Name : Accepted strings 'H23_TEMP': ['h23'], # Barometric temperature Sensor 'NUM_OF_TEMPERATURE_SENSORS': [], # Number of temperature Sensors } created_enum = unique(DialinEnum('TDTemperatureSensorNames', self.create_members(members))) created_enum._str_list = members created_enum.from_str = classmethod(self.from_str) return created_enum def _create_td_switch_names(self): members = { # Official Name : Accepted strings 'H9_FRONT_DOOR': ['h9', 'front door', 'door'], # Front Door Switch for TD 'NUM_OF_DOORS_AND_SWITCHES': [], # Number of Doors and Switches } created_enum = unique(DialinEnum('TDSwitchNames', self.create_members(members))) created_enum._str_list = members created_enum.from_str = classmethod(self.from_str) return created_enum def _create_td_valve_names(self): members = { # Official Name : Accepted strings 'H1_VALV': ['h1'], # H1 Valve for TD 'H19_VALV': ['h19'], # H19 Valve for TD 'NUM_OF_TD_VALVES': [], # Number of Valves for the TD } created_enum = unique(DialinEnum('TDValveNames', self.create_members(members))) created_enum._str_list = members created_enum.from_str = classmethod(self.from_str) return created_enum def _create_td_monitored_voltages(self): members = { # Official Name : Accepted strings 'MONITORED_LINE_1_2V': ['1.2v'], # Processor voltage (1.2V) 'MONITORED_LINE_3_3V': ['3.3v'], # Logic voltage (3.3V) 'MONITORED_LINE_5V_LOGIC': ['5v logic'], # Logic voltage (5V) 'MONITORED_LINE_5V_SENSORS': ['5v sensor'], # Sensors voltage (5V) 'MONITORED_LINE_24V': ['24v'], # Actuators voltage (24V) 'MONITORED_LINE_24V_REGEN': ['24v regen'], # Actuators regen voltage (24V) 'MONITORED_LINE_FPGA_REF_V': ['fpga ref'], # FPGA ADC reference voltage (1V) 'MONITORED_LINE_PBA_REF_V': ['pba ref'], # PBA ADC reference voltage (3V) 'MONITORED_LINE_FPGA_VCC_V': ['fpga vcc'], # FPGA Vcc (3V) 'MONITORED_LINE_FPGA_AUX_V': ['fpga aux'], # FPGA Vaux (3V) 'MONITORED_LINE_FPGA_PVN_V': ['fpga pvn'], # FPGA Vpvn (1V) 'NUM_OF_MONITORED_VOLTAGE_LINES': [], # Number of TD operation modes } created_enum = unique(DialinEnum('TDMonitoredVoltages', self.create_members(members))) created_enum._str_list = members created_enum.from_str = classmethod(self.from_str) return created_enum # ================================================== Enum Creators: Support ================================================== def _create_td_air_pump_attributes(self): members = { # Official Name : Accepted strings 'STATE': [], # TD Air Pump State to command attribute 'POWER': [], # TD Air Pump Power attribute 'NUM_OF_AIR_PUMP_ATTRIBUTES': [], # Number of Air Pump attributes } created_enum = unique(DialinEnum('TDAirPumpAttributes', self.create_members(members))) created_enum._str_list = members created_enum.from_str = classmethod(self.from_str) return created_enum def _create_td_air_trap_level_sensor_attributes(self): members = { # Official Name : Accepted strings 'LEVEL': [], # Level attribute for Air Trap Level Sensor 'RAW': [], # Raw reading attribute for Air Trap Level Sensor 'NUM_OF_AIR_TRAP_LEVEL_SENSOR_ATTRIBUTES': [], # Number of Air Trap Level Sensor attributes } created_enum = unique(DialinEnum('TDAirTrapLevelSensorAttributes', self.create_members(members))) created_enum._str_list = members created_enum.from_str = classmethod(self.from_str) return created_enum def _create_td_air_trap_state(self): members = { # Official Name : Accepted strings 'STATE_CLOSED': ['closed', 'close'], # Closed state for Air Trap 'STATE_OPEN': ['opened', 'open'], # Open state for Air Trap 'NUM_OF_AIR_TRAP_STATES': [], # Number of Air Trap States } created_enum = unique(DialinEnum('TDAirTrapState', self.create_members(members))) created_enum._str_list = members created_enum.from_str = classmethod(self.from_str) return created_enum def _create_td_blood_flow_motor_attributes(self): members = { # Official Name : Accepted strings 'SET_BLOOD_FLOW_RATE': ['set flow rate'], # Set Blood Flow Rate for Blood Flow Motor 'MEASURED_BLOOD_FLOW_RATE': ['measured flow rate'], # Measured Blood Flow Rate for Blood Flow Motor 'MEASURED_BLOOD_PUMP_ROTOR_SPEED': ['measured rpm', 'measured rotor speed'], # Measured Bloop Pump Rotor Speed for Blood Flow Motor 'MEASURED_BLOOD_PUMP_SPEED': ['measured speed'], # Measured Blood Pump Speed for Blood Flow Motor 'MEASURED_BLOOD_PUMP_TORQUE': ['measured torque'], # Measured Blood Pump torque 'SET_RPM': ['set rotor speed'], # Set Revolutions per minute for Blood Flow Motor 'ROTOR_COUNT': [], # Rotor Count for Blood Flow Motor 'PRES_BLOOD_FLOW_RATE': ['pressure blood flow rate'], # Pressure Blood Flow Rate for Blood Flow Motor 'ROTOR_HALL_STATE': [], # Rotor Hall State for Blood Flow Motor 'NUM_OF_BLOOD_FLOW_MOTOR_ATTRIBUTES': [], # Number of Blood Flow Motor Attributes } created_enum = unique(DialinEnum('TDBloodFlowMotorAttributes', self.create_members(members))) created_enum._str_list = members created_enum.from_str = classmethod(self.from_str) return created_enum def _create_td_air_bubble_detector_attributes(self): members = { # Official Name : Accepted strings 'STATUS': [], # Status of the Air Bubble Detector 'STATE': [], # State of the Air Bubble Detector 'NUM_OF_AIR_BUBBLE_DETECTOR_ATTRIBUTES': [], # Number of Air Bubble Detector Attributes } created_enum = unique(DialinEnum('TDAirBubbleDetectorAttributes', self.create_members(members))) created_enum._str_list = members created_enum.from_str = classmethod(self.from_str) return created_enum def _create_td_ejector_attributes(self): members = { # Official Name : Accepted strings 'STATE': [], # Ejector State to command 'SET_SPEED': ['speed'], # Ejector Set Speed 'OPT_SNSR_RETRACT': ['retract', 'optical sensor retract'], # Ejector optical sensor retract 'OPT_SNSR_ENGAGE': ['engage', 'optical sensor engage'], # Ejector optical sensor engage 'NUM_OF_EJECTOR_ATTRIBUTES': [], # Number of Ejector Attributes } created_enum = unique(DialinEnum('TDEjectorAttributes', self.create_members(members))) created_enum._str_list = members created_enum.from_str = classmethod(self.from_str) return created_enum def _create_td_pressure_sensor_attributes(self): members = { # Official Name : Accepted strings 'PRES': ['pressure'], # Pressure attribute of pressure sensor 'LONG_FILTERED_PRESSURE': ['filtered pressure'], # Long Filtered Pressure attribute of pressure sensor 'PRES_LIMIT_MIN': ['min', 'min pressure limit', 'min limit'], # Pressure Minimum Limit attribute of pressure sensor 'PRES_LIMIT_MAX': ['max', 'max pressure limit', 'max limit'], # Pressure Maximum Limit attribute of pressure sensor 'NUM_OF_PRESSURE_ATTRIBUTES': [], # Number of Pressure Sensor Attributes } created_enum = unique(DialinEnum('TDPressureSensorAttributes', self.create_members(members))) created_enum._str_list = members created_enum.from_str = classmethod(self.from_str) return created_enum def _create_td_switch_status(self): members = { # Official Name : Accepted strings 'CLOSED': [], # Closed State of the TD Switch 'OPEN': [], # Open State of the TD Switch 'NUM_OF_SWITCH_STATES': [], # Number of Switch States } created_enum = unique(DialinEnum('TDSwitchStatus', self.create_members(members))) created_enum._str_list = members created_enum.from_str = classmethod(self.from_str) return created_enum def _create_td_valve_positions(self): members = { # Official Name : Accepted strings 'VALVE_POSITION_NOT_IN_POSITION': ['not in position'], # Valve not in Position 'VALVE_POSITION_A_INSERT_EJECT': ['a', 'insert/eject', 'insert', 'eject'], # Insert/Eject Valve Position 'VALVE_POSITION_B_OPEN': ['b', 'open'], # Open Valve Position 'VALVE_POSITION_C_CLOSE': ['c', 'close', 'closed'], # Closed Valve Position 'VALVE_POSITION_C_PARTIAL_CLOSE': [], # Partial Close Valve Position } created_enum = unique(DialinEnum('TDValvePositions', self.create_members(members))) created_enum._str_list = members created_enum.from_str = classmethod(self.from_str) return created_enum def _create_td_valve_states(self): members = { # Official Name : Accepted strings 'VALVE_STATE_WAIT_FOR_POST': ['wait', 'wait for post'], # Waiting for POST Valve State 'VALVE_STATE_RESET_VALVE': ['reset valve'], # Valve state reset valve. 'VALVE_STATE_RESET_ENCODER': ['reset encoder'], # Valve state reset encoder. 'VALVE_STATE_ENABLE_VALVE': ['enable', 'enable valve'], # Valve state enable valve. 'VALVE_STATE_HOMING_NOT_STARTED': ['homing not started', 'not started'], # Valve state homing not started. 'VALVE_STATE_HOMING_FIND_ENERGIZED_EDGE': ['homing find energized edge'], # Valve state homing find energized edge. 'VALVE_STATE_HOMING_FIND_DEENERGIZED_EDGE': ['homing find deenergized edge'], # Valve state homing find. 'VALVE_STATE_IDLE': ['idle'], # Idle Valve State. 'VALVE_STATE_IN_TRANSITION': [], # Valve state in transition. } created_enum = unique(DialinEnum('TDValveStates', self.create_members(members))) created_enum._str_list = members created_enum.from_str = classmethod(self.from_str) return created_enum # ================================================== Creates a singleton ================================================== td_enum_repository = TD_Defs() # Attach listener to update function test_config_change.add_listener(td_enum_repository.update_enums)