import fs import const import util from acars import ACARS from sound import startSound import time #--------------------------------------------------------------------------------------- ## @package mlx.checks # # The classes that check the state of the aircraft. # # During the flight the program periodically queries various data from the # simulator. This data is returned in instances of the \ref # mlx.fs.AircraftState class and passed to the various "checkers", # i.e. instances of subclasses of the \ref StateChecker class. These checkers # perform various checks to see if the aircraft's parameters are within the # expected limits, or some of them just logs something. # # There are a few special ones, such as \ref StageChecker which computes the # transitions from one stage of the flight to the next one. Or \ref ACARSSender # which sends the ACARS periodically #--------------------------------------------------------------------------------------- class StateChecker(object): """Base class for classes the instances of which check the aircraft's state from some aspect. As a result of the check they may log something, or notify of some fault, etc.""" def check(self, flight, aircraft, logger, oldState, state): """Perform the check and do whatever is needed. This default implementation raises a NotImplementedError.""" raise NotImplementedError() #--------------------------------------------------------------------------------------- class StageChecker(StateChecker): """Check the flight stage transitions.""" def __init__(self): """Construct the stage checker.""" self._flareStarted = False def check(self, flight, aircraft, logger, oldState, state): """Check the stage of the aircraft.""" stage = flight.stage if stage==None: aircraft.setStage(state, const.STAGE_BOARDING) elif stage==const.STAGE_BOARDING: if not state.parking or \ (not state.trickMode and state.groundSpeed>5.0): aircraft.setStage(state, const.STAGE_PUSHANDTAXI) elif stage==const.STAGE_PUSHANDTAXI or stage==const.STAGE_RTO: if state.strobeLightsOn or \ (state.strobeLightsOn is None and state.xpdrC): aircraft.setStage(state, const.STAGE_TAKEOFF) elif stage==const.STAGE_TAKEOFF: if not state.gearsDown or \ (state.radioAltitude>3000.0 and state.vs>0): aircraft.setStage(state, const.STAGE_CLIMB) elif not state.landingLightsOn and \ (state.strobeLightsOn is False or (state.strobeLightsOn is None and state.xpdrC is False)) and \ state.onTheGround and \ state.groundSpeed<50.0: aircraft.setStage(state, const.STAGE_RTO) elif stage==const.STAGE_CLIMB: if (state.altitude+2000) > flight.cruiseAltitude: aircraft.setStage(state, const.STAGE_CRUISE) elif state.radioAltitude<2000.0 and \ state.vs < 0.0 and state.gearsDown: aircraft.setStage(state, const.STAGE_LANDING) elif stage==const.STAGE_CRUISE: if (state.altitude+2000) < flight.cruiseAltitudeForDescent: aircraft.setStage(state, const.STAGE_DESCENT) elif stage==const.STAGE_DESCENT or stage==const.STAGE_GOAROUND: if state.gearsDown and state.radioAltitude<2000.0: aircraft.setStage(state, const.STAGE_LANDING) elif (state.altitude+2000) > flight.cruiseAltitude: aircraft.setStage(state, const.STAGE_CRUISE) elif stage==const.STAGE_LANDING: if state.onTheGround and state.groundSpeed<25.0: aircraft.setStage(state, const.STAGE_TAXIAFTERLAND) elif not state.gearsDown: aircraft.setStage(state, const.STAGE_GOAROUND) elif state.radioAltitude>200 and self._flareStarted: aircraft.cancelFlare() self._flareStarted = False elif state.radioAltitude<150 and not state.onTheGround and \ not self._flareStarted: self._flareStarted = True aircraft.prepareFlare() elif stage==const.STAGE_TAXIAFTERLAND: if state.parking and aircraft.checkFlightEnd(state): aircraft.setStage(state, const.STAGE_END) #--------------------------------------------------------------------------------------- class ACARSSender(StateChecker): """Sender of online ACARS. It sends the ACARS every 3 minutes to the MAVA website.""" ## The interval at which the ACARS are sent INTERVAL = 3*60.0 def __init__(self, gui): """Construct the ACARS sender.""" self._gui = gui self._lastSent = None self._sending = False def check(self, flight, aircraft, logger, oldState, state): """If the time has come to send the ACARS, send it.""" if self._sending: return now = time.time() if self._lastSent is not None and \ (self._lastSent + ACARSSender.INTERVAL)>now: return self._sending = True acars = ACARS(self._gui, state) self._gui.webHandler.sendACARS(self._acarsCallback, acars) def _acarsCallback(self, returned, result): """Callback for ACARS sending.""" if returned: print "Sent online ACARS" self._lastSent = time.time() if self._lastSent is None \ else self._lastSent + ACARSSender.INTERVAL else: print "Failed to send the ACARS" self._sending = False #--------------------------------------------------------------------------------------- class TakeOffLogger(StateChecker): """Logger for the cruise speed.""" def __init__(self): """Construct the logger.""" self._onTheGround = True def check(self, flight, aircraft, logger, oldState, state): """Log the cruise speed if necessary.""" if flight.stage==const.STAGE_TAKEOFF and \ self._onTheGround and not state.onTheGround: logger.message(state.timestamp, "Takeoff speed: %.0f %s" % \ (flight.speedFromKnots(state.ias), flight.getEnglishSpeedUnit())) logger.message(state.timestamp, "Takeoff heading: %03.0f degrees" % (state.heading,)) logger.message(state.timestamp, "Takeoff pitch: %.1f degrees" % (state.pitch,)) logger.message(state.timestamp, "Takeoff flaps: %.0f" % (state.flapsSet)) logger.message(state.timestamp, "CG/Trim: %.1f%%/%.2f" % \ (state.cog*100.0, state.elevatorTrim)) if abs(state.pitch)>aircraft.maxTakeOffPitch: flight.handleNoGo("TOPitch", state.timestamp, "Takeoff pitch higher than aircraft maximum (%.2f)" % \ (aircraft.maxTakeOffPitch,), "TO TAILSTRIKE NO GO") self._onTheGround = False #--------------------------------------------------------------------------------------- class InitialClimbSpeedLogger(StateChecker): """Logger for the initial climb speed.""" def __init__(self): """Construct the logger.""" self._logged = False def check(self, flight, aircraft, logger, oldState, state): """Log the initial climb speed if the altitude is reached.""" if not self._logged and \ state.radioAltitude>=aircraft.initialClimbSpeedAltitude and \ flight.stage in [const.STAGE_TAKEOFF, const.STAGE_CLIMB]: logger.message(state.timestamp, "Initial climb speed: %.0f %s - %.0f ft AGL" % \ (flight.speedFromKnots(state.ias), flight.getEnglishSpeedUnit(), state.radioAltitude)) self._logged = True #--------------------------------------------------------------------------------------- class CruiseSpeedLogger(StateChecker): """Logger for the cruise speed.""" def __init__(self): """Construct the logger.""" self._lastTime = None def check(self, flight, aircraft, logger, oldState, state): """Log the cruise speed if necessary.""" if flight.stage==const.STAGE_CRUISE and \ (self._lastTime is None or \ (self._lastTime+800)<=state.timestamp): if state.altitude>24500.0: logger.message(state.timestamp, "Cruise speed: %.3f mach" % (state.mach,)) else: logger.message(state.timestamp, "Cruise speed: %.0f %s" % (flight.speedFromKnots(state.ias), flight.getEnglishSpeedUnit())) self._lastTime = state.timestamp #--------------------------------------------------------------------------------------- class SpoilerLogger(StateChecker): """Logger for the spoiler.""" def __init__(self): """Construct the logger.""" self._spoilersDown = True self._logged = False self._spoilersExtension = None def check(self, flight, aircraft, logger, oldState, state): """Log the cruise speed if necessary.""" spoilersDown = state.spoilersExtension==0 if flight.stage==const.STAGE_LANDING and state.onTheGround: if not self._logged: if not spoilersDown and self._spoilersDown: logger.message(state.timestamp, "Speedbrake deployed") self._logged = True config = flight.config if config.enableSounds and config.speedbrakeAtTD: startSound(const.SOUND_SPEEDBRAKE) elif spoilersDown!=self._spoilersDown: logger.message(state.timestamp, "Speedbrake " + ("down" if spoilersDown else "up")) self._spoilersDown = spoilersDown #--------------------------------------------------------------------------------------- class VisibilityChecker(StateChecker): """Inform the pilot of the visibility once when descending below 2000 ft, then when descending below 1000 ft.""" def __init__(self): """Construct the visibility checker.""" self._informedBelow2000 = False self._informedBelow1000 = False def check(self, flight, aircraft, logger, oldState, state): """Check if we need to inform the pilot of the visibility.""" if flight.stage==const.STAGE_DESCENT or \ flight.stage==const.STAGE_LANDING: if (state.radioAltitude<2000 and not self._informedBelow2000) or \ (state.radioAltitude<1000 and not self._informedBelow1000): visibilityString = util.visibility2String(state.visibility) fs.sendMessage(const.MESSAGETYPE_VISIBILITY, "Current visibility: " + visibilityString, 5) logger.message(state.timestamp, "Pilot was informed about the visibility: " + visibilityString) self._informedBelow2000 = True self._informedBelow1000 = state.radioAltitude<1000 #--------------------------------------------------------------------------------------- class ApproachCalloutsPlayer(StateChecker): """A state checker that plays a sequence of approach callouts. It tracks the altitude during the descent and landing phases and if the altitude crosses one that has a callout associated with and the vertical speed is negative, that callout will be played.""" def __init__(self, approachCallouts): """Construct the approach callouts player.""" self._approachCallouts = approachCallouts self._altitudes = approachCallouts.getAltitudes(descending = False) def check(self, flight, aircraft, logger, oldState, state): """Check if we need to play a callout.""" if (flight.stage==const.STAGE_DESCENT or \ flight.stage==const.STAGE_LANDING) and state.vs<0: oldRadioAltitude = oldState.radioAltitude radioAltitude = state.radioAltitude for altitude in self._altitudes: if radioAltitude<=altitude and \ oldRadioAltitude>altitude: startSound(self._approachCallouts[altitude]) break #--------------------------------------------------------------------------------------- class StateChangeLogger(StateChecker): """Base class for classes the instances of which check if a specific change has occured in the aircraft's state, and log such change.""" def __init__(self, logInitial = True, excludedStages = None): """Construct the logger. If logInitial is True, the initial value will be logged, not just the changes later. If excludedStages is given, it should be a list containing those stages during which the changes should not be logged. Child classes should define the following functions: - _changed(self, oldState, state): returns a boolean indicating if the value has changed or not - _getMessage(self, flight, state, forced): return a strings containing the message to log with the new value """ self._logInitial = logInitial self._excludedStages = [] if excludedStages is None else excludedStages def _getLogTimestamp(self, state, forced): """Get the log timestamp.""" return state.timestamp def check(self, flight, aircraft, logger, oldState, state): """Check if the state has changed, and if so, log the new state.""" if flight.stage in self._excludedStages: return shouldLog = False if oldState is None: shouldLog = self._logInitial else: shouldLog = self._changed(oldState, state) if shouldLog: self.logState(flight, logger, state) def logState(self, flight, logger, state, forced = False): """Log the state.""" message = self._getMessage(flight, state, forced) if message is not None: logger.message(self._getLogTimestamp(state, forced), message) #------------------------------------------------------------------------------- class SimpleChangeMixin(object): """A mixin that defines a _changed() function which simply calls a function to retrieve the value two monitor for both states and compares them. Child classes should define the following function: - _getValue(state): get the value we are interested in.""" def _changed(self, oldState, state): """Determine if the value has changed.""" currentValue = self._getValue(state) return currentValue is not None and self._getValue(oldState)!=currentValue #--------------------------------------------------------------------------------------- class SingleValueMixin(object): """A mixin that provides a _getValue() function to query a value from the state using the name of the attribute.""" def __init__(self, attrName): """Construct the mixin with the given attribute name.""" self._attrName = attrName def _getValue(self, state): """Get the value of the attribute from the state.""" return getattr(state, self._attrName) #--------------------------------------------------------------------------------------- class DelayedChangeMixin(object): """A mixin to a StateChangeLogger that stores the old value and reports a change only if the change has been there for a certain amount of time. Child classes should define the following function: - _getValue(state): get the value we are interested in.""" def __init__(self, minDelay = 3.0, maxDelay = 10.0): """Construct the mixin with the given delay in seconds.""" self._minDelay = minDelay self._maxDelay = maxDelay self._oldValue = None self._firstChange = None self._lastChangeState = None self._lastLoggedValue = None self._logState = lambda flight, logger, state, forced = False: \ StateChangeLogger.logState(self, flight, logger, state, forced = forced) self.logState = lambda flight, logger, state, forced = False: \ DelayedChangeMixin.logState(self, flight, logger, state, forced = forced) def _changed(self, oldState, state): """Determine if the value has changed.""" if self._oldValue is None: self._oldValue = self._getValue(oldState) newValue = self._getValue(state) if self._isDifferent(self._oldValue, newValue): if self._lastLoggedValue is not None and \ not self._isDifferent(self._lastLoggedValue, newValue): self._firstChange = None else: if self._firstChange is None: self._firstChange = state.timestamp self._lastChangeState = state self._oldValue = newValue if self._firstChange is not None: if state.timestamp >= min(self._lastChangeState.timestamp + self._minDelay, self._firstChange + self._maxDelay): self._firstChange = None return True return False def _getLogTimestamp(self, state, forced): """Get the log timestamp.""" return self._lastChangeState.timestamp \ if not forced and self._lastChangeState is not None \ else state.timestamp def _isDifferent(self, oldValue, newValue): """Determine if the given values are different. This default implementation checks for simple equality.""" return oldValue!=newValue def logState(self, flight, logger, state, forced): """Log the given state. The value belonging to that state is recorded in _lastLoggedValue. It calls _logState to perform the real logging.""" self._lastLoggedValue = self._getValue(state) self._logState(flight, logger, state, forced = forced) #--------------------------------------------------------------------------------------- class TemplateMessageMixin(object): """Mixin to generate a message based on a template. Child classes should define the following function: - _getValue(state): get the value we are interested in.""" def __init__(self, template): """Construct the mixin.""" self._template = template def _getMessage(self, flight, state, forced): """Get the message.""" value = self._getValue(state) return None if value is None else self._template % (value,) #--------------------------------------------------------------------------------------- class GenericStateChangeLogger(StateChangeLogger, SingleValueMixin, DelayedChangeMixin, TemplateMessageMixin): """Base for generic state change loggers that monitor a single value in the state possibly with a delay and the logged message comes from a template""" def __init__(self, attrName, template, logInitial = True, excludedStages = None, minDelay = 0.0, maxDelay = 0.0): """Construct the object.""" StateChangeLogger.__init__(self, logInitial = logInitial, excludedStages = excludedStages) SingleValueMixin.__init__(self, attrName) DelayedChangeMixin.__init__(self, minDelay = minDelay, maxDelay = maxDelay) TemplateMessageMixin.__init__(self, template) self._getLogTimestamp = \ lambda state, forced: \ DelayedChangeMixin._getLogTimestamp(self, state, forced) #--------------------------------------------------------------------------------------- class ForceableLoggerMixin(object): """A mixin for loggers that can be forced to log a certain state.""" def forceLog(self, flight, logger, state): """Force logging the given state.""" self.logState(flight, logger, state, forced = True) #--------------------------------------------------------------------------------------- class AltimeterLogger(StateChangeLogger, SingleValueMixin, DelayedChangeMixin): """Logger for the altimeter setting.""" def __init__(self): """Construct the logger.""" StateChangeLogger.__init__(self, logInitial = True) SingleValueMixin.__init__(self, "altimeter") DelayedChangeMixin.__init__(self) self._getLogTimestamp = \ lambda state, forced: \ DelayedChangeMixin._getLogTimestamp(self, state, forced) def _getMessage(self, flight, state, forced): """Get the message to log on a change.""" logState = self._lastChangeState if \ self._lastChangeState is not None else state message = "Altimeter: %.2f hPa at %.0f feet" % \ (logState.altimeter, logState.altitude) if not logState.altimeterReliable: message += " (u/r)" return message #--------------------------------------------------------------------------------------- class NAVLogger(StateChangeLogger, DelayedChangeMixin, ForceableLoggerMixin): """Logger for NAV radios. It also logs the OBS radial set.""" excludedStages = [const.STAGE_BOARDING, const.STAGE_PUSHANDTAXI, const.STAGE_RTO, const.STAGE_TAXIAFTERLAND, const.STAGE_PARKING] @staticmethod def getMessage(logName, frequency, obs): """Get the message for the given NAV radio setting.""" message = u"%-5s %s" % (logName + ":", frequency) if obs is not None: message += u" (%03d\u00b0)" % (obs,) return message def __init__(self, attrName, logName): """Construct the NAV logger.""" StateChangeLogger.__init__(self, logInitial = False, excludedStages = self.excludedStages) DelayedChangeMixin.__init__(self) self._getLogTimestamp = \ lambda state, forced: \ DelayedChangeMixin._getLogTimestamp(self, state, forced) self._attrName = attrName self._logName = logName def _getValue(self, state): """Get the value. If both the frequency and the obs settings are available, a tuple containing them is returned, otherwise None.""" frequency = getattr(state, self._attrName) obs = getattr(state, self._attrName + "_obs") manual = getattr(state, self._attrName + "_manual") return (frequency, obs, manual) def _getMessage(self, flight, state, forced): """Get the message.""" (frequency, obs, manual) = self._getValue(state) return None if frequency is None or obs is None or \ (not manual and not forced) else \ self.getMessage(self._logName, frequency, obs) def _isDifferent(self, oldValue, newValue): """Determine if the valie has changed between the given states.""" (oldFrequency, oldOBS, _oldManual) = oldValue (newFrequency, newOBS, _newManual) = newValue return oldFrequency!=newFrequency or oldOBS!=newOBS #--------------------------------------------------------------------------------------- class ILSLogger(NAVLogger): """Logger for the ILS radio setting.""" def __init__(self): """Construct the logger.""" super(ILSLogger, self).__init__("ils", "ILS") #--------------------------------------------------------------------------------------- class NAV1Logger(NAVLogger): """Logger for the NAV1 radio setting.""" def __init__(self): """Construct the logger.""" super(NAV1Logger, self).__init__("nav1", "NAV1") #--------------------------------------------------------------------------------------- class NAV2Logger(NAVLogger): """Logger for the NAV2 radio setting.""" def __init__(self): """Construct the logger.""" super(NAV2Logger, self).__init__("nav2", "NAV2") #--------------------------------------------------------------------------------------- class ADFLogger(GenericStateChangeLogger, ForceableLoggerMixin): """Base class for the ADF loggers.""" def __init__(self, attr, logName): """Construct the ADF logger.""" GenericStateChangeLogger.__init__(self, attr, "%s: %%s" % (logName,), logInitial = False, excludedStages = NAVLogger.excludedStages, minDelay = 3.0, maxDelay = 10.0) #--------------------------------------------------------------------------------------- class ADF1Logger(ADFLogger): """Logger for the ADF1 radio setting.""" def __init__(self): """Construct the logger.""" super(ADF1Logger, self).__init__("adf1", "ADF1") #--------------------------------------------------------------------------------------- class ADF2Logger(ADFLogger): """Logger for the ADF2 radio setting.""" def __init__(self): """Construct the logger.""" super(ADF2Logger, self).__init__("adf2", "ADF2") #--------------------------------------------------------------------------------------- class SquawkLogger(GenericStateChangeLogger): """Logger for the squawk setting.""" def __init__(self): """Construct the logger.""" super(SquawkLogger, self).__init__("squawk", "Squawk code: %s", minDelay = 3.0, maxDelay = 10.0) #--------------------------------------------------------------------------------------- class LightsLogger(StateChangeLogger, SingleValueMixin, DelayedChangeMixin): """Base class for the loggers of the various lights.""" def __init__(self, attrName, template): """Construct the logger.""" StateChangeLogger.__init__(self) SingleValueMixin.__init__(self, attrName) DelayedChangeMixin.__init__(self) self._getLogTimestamp = \ lambda state, forced: \ DelayedChangeMixin._getLogTimestamp(self, state, forced) self._template = template def _getMessage(self, flight, state, forced): """Get the message from the given state.""" value = self._getValue(state) if value is None: return None else: return self._template % ("ON" if value else "OFF") #--------------------------------------------------------------------------------------- class AnticollisionLightsLogger(LightsLogger): """Logger for the anti-collision lights.""" def __init__(self): LightsLogger.__init__(self, "antiCollisionLightsOn", "Anti-collision lights: %s") #--------------------------------------------------------------------------------------- class LandingLightsLogger(LightsLogger): """Logger for the landing lights.""" def __init__(self): LightsLogger.__init__(self, "landingLightsOn", "Landing lights: %s") #--------------------------------------------------------------------------------------- class StrobeLightsLogger(LightsLogger): """Logger for the strobe lights.""" def __init__(self): LightsLogger.__init__(self, "strobeLightsOn", "Strobe lights: %s") #--------------------------------------------------------------------------------------- class NavLightsLogger(LightsLogger): """Logger for the navigational lights.""" def __init__(self): LightsLogger.__init__(self, "navLightsOn", "Navigational lights: %s") #--------------------------------------------------------------------------------------- class FlapsLogger(StateChangeLogger, SingleValueMixin, DelayedChangeMixin): """Logger for the flaps setting.""" def __init__(self): """Construct the logger.""" StateChangeLogger.__init__(self, logInitial = True, excludedStages = [const.STAGE_BOARDING, const.STAGE_PUSHANDTAXI, const.STAGE_RTO, const.STAGE_TAKEOFF]) SingleValueMixin.__init__(self, "flapsSet") DelayedChangeMixin.__init__(self) self._getLogTimestamp = \ lambda state, forced: \ DelayedChangeMixin._getLogTimestamp(self, state, forced) def _getMessage(self, flight, state, forced): """Get the message to log on a change.""" logState = self._lastChangeState if \ self._lastChangeState is not None else state speed = logState.groundSpeed if logState.groundSpeed<80.0 \ else logState.ias message = "Flaps %.0f - %.0f %s, %.0f ft AGL, %.0f ft AMSL" % \ (logState.flapsSet, flight.speedFromKnots(speed), flight.getEnglishSpeedUnit(), logState.radioAltitude, logState.altitude) return message #--------------------------------------------------------------------------------------- class GearsLogger(StateChangeLogger, SingleValueMixin, SimpleChangeMixin): """Logger for the gears state.""" def __init__(self): """Construct the logger.""" StateChangeLogger.__init__(self, logInitial = True) SingleValueMixin.__init__(self, "gearControlDown") def _getMessage(self, flight, state, forced): """Get the message to log on a change.""" return "Gears SET to %s at %.0f %s, %.0f ft, %.0f ft AGL" % \ ("DOWN" if state.gearControlDown else "UP", flight.speedFromKnots(state.ias), flight.getEnglishSpeedUnit(), state.altitude, state.radioAltitude) #--------------------------------------------------------------------------------------- class APLogger(StateChangeLogger, DelayedChangeMixin): """Log the state of the autopilot.""" @staticmethod def _logBoolean(logger, timestamp, what, value): """Log a boolean value. what is the name of the value that is being logged.""" message = what + " " if value is None: message += "cannot be detected, will not log" else: message += "is " + ("ON" if value else "OFF") logger.message(timestamp, message) @staticmethod def _logNumeric(logger, timestamp, what, format, value): """Log a numerical value.""" message = what if value is None: message += u" cannot be detected, will not log" else: message += u": " + format % (value,) logger.message(timestamp, message) @staticmethod def _logAPMaster(logger, timestamp, state): """Log the AP master state.""" APLogger._logBoolean(logger, timestamp, "AP master", state.apMaster) @staticmethod def _logAPHeadingHold(logger, timestamp, state): """Log the AP heading hold state.""" APLogger._logBoolean(logger, timestamp, "AP heading hold", state.apHeadingHold) @staticmethod def _logAPHeading(logger, timestamp, state): """Log the AP heading.""" APLogger._logNumeric(logger, timestamp, u"AP heading", u"%03.0f\u00b0", state.apHeading) @staticmethod def _logAPAltitudeHold(logger, timestamp, state): """Log the AP altitude hold state.""" APLogger._logBoolean(logger, timestamp, "AP altitude hold", state.apAltitudeHold) @staticmethod def _logAPAltitude(logger, timestamp, state): """Log the AP heading.""" APLogger._logNumeric(logger, timestamp, u"AP altitude", u"%.0f ft", state.apAltitude) def __init__(self): """Construct the state logger.""" StateChangeLogger.__init__(self) DelayedChangeMixin.__init__(self) self._lastLoggedState = None self.logState = lambda flight, logger, state:\ APLogger.logState(self, flight, logger, state) def _getValue(self, state): """Convert the relevant values from the given state into a tuple.""" return (state.apMaster, state.apHeadingHold, state.apHeading, state.apAltitudeHold, state.apAltitude) def _isDifferent(self, oldValue, newValue): """Determine if the given old and new values are different (enough) to be logged.""" (oldAPMaster, oldAPHeadingHold, oldAPHeading, oldAPAltitudeHold, oldAPAltitude) = oldValue (apMaster, apHeadingHold, apHeading, apAltitudeHold, apAltitude) = newValue if apMaster is not None and apMaster!=oldAPMaster: return True if apMaster is False: return False if apHeadingHold is not None and apHeadingHold!=oldAPHeadingHold: return True if apHeadingHold is not False and apHeading is not None and \ apHeading!=oldAPHeading: return True if apAltitudeHold is not None and apAltitudeHold!=oldAPAltitudeHold: return True if apAltitudeHold is not False and apAltitude is not None and \ apAltitude!=oldAPAltitude: return True return False def logState(self, flight, logger, state): """Log the autopilot state.""" timestamp = DelayedChangeMixin._getLogTimestamp(self, state, False) if self._lastLoggedState is None: self._logAPMaster(logger, timestamp, state) if state.apMaster is not False or state.apHeadingHold is None: self._logAPHeadingHold(logger, timestamp, state) if state.apMaster is not False and \ (state.apHeadingHold is not False or state.apHeading is None): self._logAPHeading(logger, timestamp, state) if state.apMaster is not False or state.apAltitudeHold is None: self._logAPAltitudeHold(logger, timestamp, state) if state.apMaster is not False and \ (state.apAltitudeHold is not False or state.apAltitude is None): self._logAPAltitude(logger, timestamp, state) self._firstCall = False else: oldState = self._lastLoggedState apMasterTurnedOn = False if state.apMaster is not None and state.apMaster!=oldState.apMaster: apMasterTurnedOn = state.apMaster self._logAPMaster(logger, timestamp, state) if state.apMaster is not False: apHeadingHoldTurnedOn = False if state.apHeadingHold is not None and \ (state.apHeadingHold!=oldState.apHeadingHold or apMasterTurnedOn): apHeadingHoldTurnedOn = state.apHeadingHold self._logAPHeadingHold(logger, timestamp, state) if state.apHeadingHold is not False and \ state.apHeading is not None and \ (state.apHeading!=oldState.apHeading or apMasterTurnedOn or apHeadingHoldTurnedOn): self._logAPHeading(logger, timestamp, state) apAltitudeHoldTurnedOn = False if state.apAltitudeHold is not None and \ (state.apAltitudeHold!=oldState.apAltitudeHold or apMasterTurnedOn): apAltitudeHoldTurnedOn = state.apAltitudeHold self._logAPAltitudeHold(logger, timestamp, state) if state.apAltitudeHold is not False and \ state.apAltitude is not None and \ (state.apAltitude!=oldState.apAltitude or apMasterTurnedOn or apAltitudeHoldTurnedOn): self._logAPAltitude(logger, timestamp, state) self._lastLoggedState = state #--------------------------------------------------------------------------------------- class FaultChecker(StateChecker): """Base class for checkers that look for faults.""" @staticmethod def _appendDuring(flight, message): """Append a 'during XXX' test to the given message, depending on the flight stage.""" stageStr = const.stage2string(flight.stage) return message if stageStr is None \ else (message + " during " + stageStr.upper()) @staticmethod def _getLinearScore(minFaultValue, maxFaultValue, minScore, maxScore, value): """Get the score for a faulty value where the score is calculated linearly within a certain range.""" if valuemaxFaultValue: return maxScore else: return minScore + (maxScore-minScore) * (value-minFaultValue) / \ (maxFaultValue - minFaultValue) #--------------------------------------------------------------------------------------- class SimpleFaultChecker(FaultChecker): """Base class for fault checkers that check for a single occurence of a faulty condition. Child classes should implement the following functions: - isCondition(self, flight, aircraft, oldState, state): should return whether the condition holds - logFault(self, flight, aircraft, logger, oldState, state): log the fault via the logger.""" def check(self, flight, aircraft, logger, oldState, state): """Perform the check.""" if self.isCondition(flight, aircraft, oldState, state): self.logFault(flight, aircraft, logger, oldState, state) #--------------------------------------------------------------------------------------- class PatientFaultChecker(FaultChecker): """A fault checker that does not decides on a fault when the condition arises immediately, but can wait some time. Child classes should implement the following functions: - isCondition(self, flight, aircraft, oldState, state): should return whether the condition holds - logFault(self, flight, aircraft, logger, oldState, state): log the fault via the logger """ def __init__(self, timeout = 2.0): """Construct the fault checker with the given timeout.""" self._timeout = timeout self._faultStarted = None def getTimeout(self, flight, aircraft, oldState, state): """Get the timeout. This default implementation returns the timeout given in the constructor, but child classes might want to enforce a different policy.""" return self._timeout def check(self, flight, aircraft, logger, oldState, state): """Perform the check.""" if self.isCondition(flight, aircraft, oldState, state): if self._faultStarted is None: self._faultStarted = state.timestamp timeout = self.getTimeout(flight, aircraft, oldState, state) if state.timestamp>=(self._faultStarted + timeout): self.logFault(flight, aircraft, logger, oldState, state) self._faultStarted = state.timestamp else: self._faultStarted = None #--------------------------------------------------------------------------------------- class AntiCollisionLightsChecker(PatientFaultChecker): """Check for the anti-collision light being off at high N1 values.""" def isCondition(self, flight, aircraft, oldState, state): """Check if the fault condition holds.""" return (not flight.config.usingFS2Crew or not state.parking or flight.stage!=const.STAGE_TAXIAFTERLAND) and \ not state.antiCollisionLightsOn and \ self.isEngineCondition(state) def logFault(self, flight, aircraft, logger, oldState, state): """Log the fault.""" flight.handleFault(AntiCollisionLightsChecker, state.timestamp, FaultChecker._appendDuring(flight, "Anti-collision lights were %s" % ("on" if state.antiCollisionLightsOn else "off",)), 1) def isEngineCondition(self, state): """Determine if the engines are in such a state that the lights should be on.""" if state.n1 is not None: return max(state.n1)>5 elif state.rpm is not None: return max(state.rpm)>0 else: return False #--------------------------------------------------------------------------------------- class TupolevAntiCollisionLightsChecker(AntiCollisionLightsChecker): """Check for the anti-collision light for Tuplev planes.""" def isCondition(self, flight, aircraft, oldState, state): """Check if the fault condition holds.""" numEnginesRunning = 0 for n1 in state.n1: if n1>5: numEnginesRunning += 1 if flight.stage==const.STAGE_PARKING or \ flight.stage==const.STAGE_TAXIAFTERLAND: return numEnginesRunning1 and not state.antiCollisionLightsOn or \ numEnginesRunning<1 and state.antiCollisionLightsOn #--------------------------------------------------------------------------------------- class BankChecker(SimpleFaultChecker): """Check for the bank is within limits.""" def isCondition(self, flight, aircraft, oldState, state): """Check if the fault condition holds.""" if flight.stage==const.STAGE_CRUISE: isDH8DXplane = flight.aircraftType==const.AIRCRAFT_DH8D and \ (flight.fsType==const.SIM_XPLANE10 or flight.fsType==const.SIM_XPLANE9) bankLimit = 35 if isDH8DXplane else 30 elif flight.stage in [const.STAGE_TAKEOFF, const.STAGE_CLIMB, const.STAGE_DESCENT, const.STAGE_LANDING]: bankLimit = 35 else: return False return state.bank>bankLimit or state.bank<-bankLimit def logFault(self, flight, aircraft, logger, oldState, state): """Log the fault.""" message = "Bank too steep (%.1f)" % (state.bank,) flight.handleFault(BankChecker, state.timestamp, FaultChecker._appendDuring(flight, message), 2) #--------------------------------------------------------------------------------------- class FlapsRetractChecker(SimpleFaultChecker): """Check if the flaps are not retracted too early.""" def __init__(self): """Construct the flaps checker.""" self._timeStart = None def isCondition(self, flight, aircraft, oldState, state): """Check if the fault condition holds. FIXME: check if this really is the intention (FlapsRetractedMistake.java)""" if (flight.stage==const.STAGE_TAKEOFF and not state.onTheGround and aircraft.type!=const.AIRCRAFT_F70) or \ (flight.stage==const.STAGE_LANDING and state.onTheGround): if self._timeStart is None: self._timeStart = state.timestamp if state.flapsSet==0 and state.timestamp<=(self._timeStart+2.0): return True else: self._timeStart = None return False def logFault(self, flight, aircraft, logger, oldState, state): """Log the fault.""" flight.handleFault(FlapsRetractChecker, state.timestamp, FaultChecker._appendDuring(flight, "Flaps retracted"), 20) #--------------------------------------------------------------------------------------- class FlapsSpeedLimitChecker(SimpleFaultChecker): """Check if the flaps are extended only at the right speeds.""" def isCondition(self, flight, aircraft, oldState, state): """Check if the fault condition holds.""" speedLimit = aircraft.getFlapsSpeedLimit(state.flapsSet) return speedLimit is not None and state.smoothedIAS>speedLimit def logFault(self, flight, aircraft, logger, oldState, state): """Log the fault.""" flight.handleFault(FlapsSpeedLimitChecker, state.timestamp, FaultChecker._appendDuring(flight, "Flap speed limit fault"), 5) #--------------------------------------------------------------------------------------- class GearsDownChecker(SimpleFaultChecker): """Check if the gears are down at low altitudes.""" def isCondition(self, flight, aircraft, oldState, state): """Check if the fault condition holds.""" return state.radioAltitude<10 and not state.gearsDown and \ flight.stage!=const.STAGE_TAKEOFF def logFault(self, flight, aircraft, logger, oldState, state): """Log the fault.""" flight.handleNoGo(GearsDownChecker, state.timestamp, "Gears not down at %.0f feet radio altitude" % \ (state.radioAltitude,), "GEAR DOWN NO GO") #--------------------------------------------------------------------------------------- class GearSpeedLimitChecker(PatientFaultChecker): """Check if the gears not down at too high a speed.""" def isCondition(self, flight, aircraft, oldState, state): """Check if the fault condition holds.""" return state.gearsDown and state.smoothedIAS>aircraft.gearSpeedLimit def logFault(self, flight, aircraft, logger, oldState, state): """Log the fault.""" flight.handleFault(GearSpeedLimitChecker, state.timestamp, FaultChecker._appendDuring(flight, "Gear speed limit fault"), 5) #--------------------------------------------------------------------------------------- class GLoadChecker(SimpleFaultChecker): """Check if the G-load does not exceed 2 except during flare.""" def isCondition(self, flight, aircraft, oldState, state): """Check if the fault condition holds.""" return state.gLoad>2.0 and not state.onTheGround and \ (flight.stage!=const.STAGE_LANDING or state.radioAltitude>=50) def logFault(self, flight, aircraft, logger, oldState, state): """Log the fault.""" flight.handleFault(GLoadChecker, state.timestamp, "G-load was %.2f" % (state.gLoad,), 10) #--------------------------------------------------------------------------------------- class LandingLightsChecker(PatientFaultChecker): """Check if the landing lights are used properly.""" def getTimeout(self, flight, aircraft, oldState, state): """Get the timeout. It is the default timeout except for landing and takeoff.""" return 0.0 if flight.stage in [const.STAGE_TAKEOFF, const.STAGE_LANDING] else self._timeout def isCondition(self, flight, aircraft, oldState, state): """Check if the fault condition holds.""" return state.landingLightsOn is not None and \ ((flight.stage==const.STAGE_BOARDING and \ state.landingLightsOn and state.onTheGround) or \ (flight.stage==const.STAGE_TAKEOFF and \ not state.landingLightsOn and not state.onTheGround) or \ (flight.stage in [const.STAGE_CLIMB, const.STAGE_CRUISE, const.STAGE_DESCENT] and \ state.landingLightsOn and state.altitude>12500) or \ (flight.stage==const.STAGE_LANDING and \ not state.landingLightsOn and state.onTheGround and state.groundSpeed>50.0) or \ (flight.stage==const.STAGE_PARKING and \ state.landingLightsOn and state.onTheGround)) def logFault(self, flight, aircraft, logger, oldState, state): """Log the fault.""" score = 0 if flight.stage in [const.STAGE_TAKEOFF, const.STAGE_LANDING] else 1 message = "Landing lights were %s" % \ (("on" if state.landingLightsOn else "off"),) flight.handleFault(LandingLightsChecker, state.timestamp, FaultChecker._appendDuring(flight, message), score) #--------------------------------------------------------------------------------------- class TransponderChecker(PatientFaultChecker): """Check if the transponder is used properly.""" def __init__(self): """Construct the transponder checker.""" super(TransponderChecker, self).__init__() self._liftOffTime = None def isCondition(self, flight, aircraft, oldState, state): """Check if the fault condition holds.""" if state.onTheGround: self._liftOffTime = None elif self._liftOffTime is None: self._liftOffTime = state.timestamp return state.xpdrC is not None and \ ((state.xpdrC and flight.stage in [const.STAGE_BOARDING, const.STAGE_PARKING]) or \ (not state.xpdrC and (flight.stage in [const.STAGE_CRUISE, const.STAGE_DESCENT, const.STAGE_GOAROUND] or \ (flight.stage==const.STAGE_LANDING and state.groundSpeed>50.0) or \ ((not state.autoXPDR or \ (self._liftOffTime is not None and state.timestamp > (self._liftOffTime+8))) and \ ((flight.stage==const.STAGE_TAKEOFF and not state.onTheGround) or flight.stage==const.STAGE_CLIMB)) ) ) ) def logFault(self, flight, aircraft, logger, oldState, state): """Log the fault.""" score = 0 message = "Transponder was %s" % \ (("mode C" if state.xpdrC else "standby"),) flight.handleFault(TransponderChecker, state.timestamp, FaultChecker._appendDuring(flight, message), score) #--------------------------------------------------------------------------------------- class WeightChecker(PatientFaultChecker): """Base class for checkers that check that some limit is not exceeded.""" def __init__(self, name): """Construct the checker.""" super(WeightChecker, self).__init__(timeout = 5.0) self._name = name def isCondition(self, flight, aircraft, oldState, state): """Check if the fault condition holds.""" if flight.entranceExam: return False limit = self.getLimit(flight, aircraft, state) if limit is not None: #if flight.options.compensation is not None: # limit += flight.options.compensation return self.getWeight(state)>limit return False def logFault(self, flight, aircraft, logger, oldState, state): """Log the fault.""" mname = "M" + self._name flight.handleNoGo(self.__class__, state.timestamp, "%s exceeded: %s is %.0f kg" % \ (mname, self._name, self.getWeight(state)), "%s NO GO" % (mname,)) def getWeight(self, state): """Get the weight that is interesting for us.""" return state.grossWeight #--------------------------------------------------------------------------------------- class MLWChecker(WeightChecker): """Checks if the MLW is not exceeded on landing.""" def __init__(self): """Construct the checker.""" super(MLWChecker, self).__init__("LW") def getLimit(self, flight, aircraft, state): """Get the limit if we are in the right state.""" return aircraft.mlw if flight.stage==const.STAGE_LANDING and \ state.onTheGround and \ not flight.entranceExam else None #--------------------------------------------------------------------------------------- class MTOWChecker(WeightChecker): """Checks if the MTOW is not exceeded on landing.""" def __init__(self): """Construct the checker.""" super(MTOWChecker, self).__init__("TOW") def getLimit(self, flight, aircraft, state): """Get the limit if we are in the right state.""" return aircraft.mtow if flight.stage==const.STAGE_TAKEOFF and \ not flight.entranceExam else None #--------------------------------------------------------------------------------------- class MZFWChecker(WeightChecker): """Checks if the MZFW is not exceeded on landing.""" def __init__(self): """Construct the checker.""" super(MZFWChecker, self).__init__("ZFW") def getLimit(self, flight, aircraft, state): """Get the limit if we are in the right state.""" return aircraft.mzfw if not flight.entranceExam else None def getWeight(self, state): """Get the weight that is interesting for us.""" return state.zfw #--------------------------------------------------------------------------------------- class NavLightsChecker(PatientFaultChecker): """Check if the navigational lights are used properly.""" def isCondition(self, flight, aircraft, oldState, state): """Check if the fault condition holds.""" return flight.stage!=const.STAGE_BOARDING and \ flight.stage!=const.STAGE_PARKING and \ state.navLightsOn is False def logFault(self, flight, aircraft, logger, oldState, state): """Log the fault.""" flight.handleFault(NavLightsChecker, state.timestamp, FaultChecker._appendDuring(flight, "Navigation lights were off"), 1) #--------------------------------------------------------------------------------------- class OverspeedChecker(PatientFaultChecker): """Check if Vne has been exceeded.""" def __init__(self, timeout = 30.0): """Construct the checker.""" super(OverspeedChecker, self).__init__(timeout = timeout) def isCondition(self, flight, aircraft, oldState, state): """Check if the fault condition holds.""" return state.overspeed def logFault(self, flight, aircraft, logger, oldState, state): """Log the fault.""" flight.handleFault(OverspeedChecker, state.timestamp, FaultChecker._appendDuring(flight, "Overspeed"), 20) #--------------------------------------------------------------------------------------- class PayloadChecker(SimpleFaultChecker): """Check if the payload matches the specification.""" TOLERANCE=550 @staticmethod def isZFWFaulty(aircraftZFW, flightZFW): """Check if the given aircraft's ZFW is outside of the limits.""" return aircraftZFW < (flightZFW - PayloadChecker.TOLERANCE) or \ aircraftZFW > (flightZFW + PayloadChecker.TOLERANCE) def isCondition(self, flight, aircraft, oldState, state): """Check if the fault condition holds.""" return not flight.entranceExam and \ flight.stage==const.STAGE_PUSHANDTAXI and \ PayloadChecker.isZFWFaulty(state.zfw, flight.zfw) def logFault(self, flight, aircraft, logger, oldState, state): """Log the fault.""" flight.handleNoGo(PayloadChecker, state.timestamp, "ZFW difference is more than %d kgs" % \ (PayloadChecker.TOLERANCE,), "ZFW NO GO") #--------------------------------------------------------------------------------------- class PitotChecker(PatientFaultChecker): """Check if pitot heat is on.""" def __init__(self): """Construct the checker.""" super(PitotChecker, self).__init__(timeout = 3.0) def isCondition(self, flight, aircraft, oldState, state): """Check if the fault condition holds.""" return state.groundSpeed>80 and not state.pitotHeatOn def logFault(self, flight, aircraft, logger, oldState, state): """Log the fault.""" score = 2 if flight.stage in [const.STAGE_TAKEOFF, const.STAGE_CLIMB, const.STAGE_CRUISE, const.STAGE_DESCENT, const.STAGE_LANDING] else 0 flight.handleFault(PitotChecker, state.timestamp, FaultChecker._appendDuring(flight, "Pitot heat was off"), score) #--------------------------------------------------------------------------------------- class ReverserLogger(StateChecker): """Logger for the reverser.""" def check(self, flight, aircraft, logger, oldState, state): """Log the cruise speed if necessary.""" if oldState is not None and state.reverser != oldState.reverser: reverser = max(state.reverser) logger.message(state.timestamp, "Reverser " + ("unlocked" if reverser else "closed") + (" - %.0f %s" % (flight.speedFromKnots(state.ias), flight.getEnglishSpeedUnit()))) #--------------------------------------------------------------------------------------- class ReverserChecker(SimpleFaultChecker): """Check if the reverser is not used below the speed prescribed for the aircraft.""" def isCondition(self, flight, aircraft, oldState, state): """Check if the fault condition holds.""" return flight.stage in [const.STAGE_DESCENT, const.STAGE_LANDING, const.STAGE_TAXIAFTERLAND] and \ state.reverser and \ state.ias50 def logFault(self, flight, aircraft, logger, oldState, state): """Log the fault.""" self.logSpeedFault(flight, state) #--------------------------------------------------------------------------------------- class NoStrobeSpeedChecker(StateChecker): """Checker for the ground speed of aircraft that have no strobe lights by which to detect the takeoff stage. If, during the PUSHANDTAXI stage the speed exceeds 50 knots, the state as saved as a provisional takeoff state. If the speed then decreases below 50 knots, or the plane remains on the ground for more than 40 seconds, a taxi speed error is logged with the highest ground speed detected. This state is also stored in the flight object as a possible If the plane becomes airborne within 40 seconds, the stage becomes TAKEOFF, and the previously saved takeoff state is logged. During the TAXIAFTERLAND stage, speed is checked as in case of SpeedChecker.""" def __init__(self): """Initialize the speed checker.""" self._takeoffState = None self._highestSpeedState = None def check(self, flight, aircraft, logger, oldState, state): """Check the state as described above.""" if SpeedChecker.needNoStrobe(aircraft, state): if flight.stage==const.STAGE_PUSHANDTAXI or \ flight.stage==const.STAGE_RTO: self._checkPushAndTaxi(flight, aircraft, state) elif flight.stage==const.STAGE_TAXIAFTERLAND: if state.groundSpeed>50: SpeedChecker.logSpeedFault(flight, state) else: self._takeoffState = None def _checkPushAndTaxi(self, flight, aircraft, state): """Check the speed during the push and taxi stage.""" if state.groundSpeed>50: if self._takeoffState is None: self._takeoffState = state self._highestSpeedState = state else: if state.groundSpeed>self._highestSpeedState.groundSpeed: self._highestSpeedState = state if not state.onTheGround: aircraft.setStage(self._takeoffState, const.STAGE_TAKEOFF) self._takeoffState = None elif state.timestamp > (self._takeoffState.timestamp + 40): flight.setRTOState(self._highestSpeedState) elif self._takeoffState is not None: flight.setRTOState(self._highestSpeedState) self._takeoffState = None #--------------------------------------------------------------------------------------- class StallChecker(PatientFaultChecker): """Check if stall occured.""" def isCondition(self, flight, aircraft, oldState, state): """Check if the fault condition holds.""" return flight.stage in [const.STAGE_TAKEOFF, const.STAGE_CLIMB, const.STAGE_CRUISE, const.STAGE_DESCENT, const.STAGE_LANDING] and state.stalled def logFault(self, flight, aircraft, logger, oldState, state): """Log the fault.""" score = 40 if flight.stage in [const.STAGE_TAKEOFF, const.STAGE_LANDING] else 30 flight.handleFault(StallChecker, state.timestamp, FaultChecker._appendDuring(flight, "Stalled"), score) #--------------------------------------------------------------------------------------- class StrobeLightsChecker(PatientFaultChecker): """Check if the strobe lights are used properly.""" def isCondition(self, flight, aircraft, oldState, state): """Check if the fault condition holds.""" return state.strobeLightsOn is not None and \ ((flight.stage==const.STAGE_BOARDING and \ state.strobeLightsOn and state.onTheGround) or \ (flight.stage==const.STAGE_TAKEOFF and \ not state.strobeLightsOn and not state.gearsDown) or \ (flight.stage in [const.STAGE_CLIMB, const.STAGE_CRUISE, const.STAGE_DESCENT] and \ not state.strobeLightsOn and not state.onTheGround) or \ (flight.stage==const.STAGE_PARKING and \ state.strobeLightsOn and state.onTheGround)) def logFault(self, flight, aircraft, logger, oldState, state): """Log the fault.""" message = "Strobe lights were %s" % (("on" if state.strobeLightsOn else "off"),) flight.handleFault(StrobeLightsChecker, state.timestamp, FaultChecker._appendDuring(flight, message), 1) #--------------------------------------------------------------------------------------- class ThrustChecker(SimpleFaultChecker): """Check if the thrust setting is not too high during takeoff. FIXME: is this really so general, for all aircraft?""" def isCondition(self, flight, aircraft, oldState, state): """Check if the fault condition holds.""" return flight.stage==const.STAGE_TAKEOFF and \ state.n1 is not None and max(state.n1)>97 def logFault(self, flight, aircraft, logger, oldState, state): """Log the fault.""" flight.handleFault(ThrustChecker, state.timestamp, FaultChecker._appendDuring(flight, "Thrust setting was too high (>97%)"), FaultChecker._getLinearScore(97, 110, 0, 10, max(state.n1)), updatePrevious = True) #--------------------------------------------------------------------------------------- class VSChecker(SimpleFaultChecker): """Check if the vertical speed is not too low at certain altitudes""" BELOW10000 = -5000 BELOW5000 = -2500 BELOW2500 = -1500 BELOW500 = -1000 TOLERANCE = 1.2 def isCondition(self, flight, aircraft, oldState, state): """Check if the fault condition holds.""" vs = state.smoothedVS altitude = state.altitude return vs < -8000 or vs > 8000 or \ (altitude<500 and vs < (VSChecker.BELOW500 * VSChecker.TOLERANCE)) or \ (altitude<2500 and vs < (VSChecker.BELOW2500 * VSChecker.TOLERANCE)) or \ (altitude<5000 and vs < (VSChecker.BELOW5000 * VSChecker.TOLERANCE)) or \ (altitude<10000 and vs < (VSChecker.BELOW10000 * VSChecker.TOLERANCE)) def logFault(self, flight, aircraft, logger, oldState, state): """Log the fault.""" vs = state.smoothedVS message = "Vertical speed was %.0f feet/min" % (vs,) if vs>-8000 and vs<8000: message += " at %.0f feet (exceeds company limit)" % (state.altitude,) score = 10 if vs<-8000 or vs>8000 else 0 flight.handleFault(VSChecker, state.timestamp, FaultChecker._appendDuring(flight, message), score) #---------------------------------------------------------------------------------------