def initUI(self): self.wid = AttitudeIndicator() hbox = QtGui.QHBoxLayout() hbox.addWidget(self.wid) self.setLayout(hbox) self.setGeometry(300, 300, 210, 210) self.setWindowTitle('Artificial Horizon') self.show()
def __init__(self, tabWidget, helper, *args): super(FlightTab, self).__init__(*args) self.setupUi(self) self.tabName = "Flight Control" self.menuName = "Flight Control" self.tabWidget = tabWidget self.helper = helper self.disconnectedSignal.connect(self.disconnected) self.connectionFinishedSignal.connect(self.connected) # Incomming signals self.helper.cf.connectSetupFinished.add_callback(self.connectionFinishedSignal.emit) self.helper.cf.disconnected.add_callback(self.disconnectedSignal.emit) self.helper.inputDeviceReader.inputUpdateSignal.connect(self.updateInputControl) self.helper.inputDeviceReader.calUpdateSignal.connect(self.calUpdateFromInput) self.helper.inputDeviceReader.emergencyStopSignal.connect(self.updateEmergencyStop) self._imu_data_signal.connect(self._imu_data_received) self._motor_data_signal.connect(self._motor_data_received) # Connect UI signals that are in this tab self.flightModeCombo.currentIndexChanged.connect(self.flightmodeChange) self.minThrust.valueChanged.connect(self.minMaxThrustChanged) self.maxThrust.valueChanged.connect(self.minMaxThrustChanged) self.thrustLoweringSlewRateLimit.valueChanged.connect(self.thrustLoweringSlewRateLimitChanged) self.slewEnableLimit.valueChanged.connect(self.thrustLoweringSlewRateLimitChanged) self.targetCalRoll.valueChanged.connect(self._trim_roll_changed) self.targetCalPitch.valueChanged.connect(self._trim_pitch_changed) self.maxAngle.valueChanged.connect(self.maxAngleChanged) self.maxYawRate.valueChanged.connect(self.maxYawRateChanged) self.uiSetupReadySignal.connect(self.uiSetupReady) self.clientXModeCheckbox.toggled.connect(self.changeXmode) self.isInCrazyFlightmode = False self.uiSetupReady() self.clientXModeCheckbox.setChecked(Config().get("client_side_xmode")) self.crazyflieXModeCheckbox.clicked.connect( lambda enabled: self.helper.cf.param.set_value("flightctrl.xmode", str(enabled))) self.helper.cf.param.add_update_callback("flightctrl.xmode", lambda name, checked: self.crazyflieXModeCheckbox.setChecked(eval(checked))) self.ratePidRadioButton.clicked.connect( lambda enabled: self.helper.cf.param.set_value("flightctrl.ratepid", str(enabled))) self.angularPidRadioButton.clicked.connect( lambda enabled: self.helper.cf.param.set_value("flightctrl.ratepid", str(not enabled))) self.helper.cf.param.add_update_callback("flightctrl.ratepid", lambda name, checked: self.ratePidRadioButton.setChecked(eval(checked))) self.ai = AttitudeIndicator() self.gridLayout.addWidget(self.ai, 0, 1) self.targetCalPitch.setValue(Config().get("trim_pitch")) self.targetCalRoll.setValue(Config().get("trim_roll"))
def __init__(self, tabWidget, helper, *args): super(FlightTab, self).__init__(*args) self.setupUi(self) # self.pub_imu = rospy.Publisher('/cf/imu', imu_msg) # self.pub_imu_target = rospy.Publisher('/cf/imu_target', imu_target_msg) # self.pub_motor = rospy.Publisher('/cf/motor', motor_msg) rospy.init_node('crazy_flie') self.tabName = "Flight Control" self.menuName = "Flight Control" self.tabWidget = tabWidget self.helper = helper self.disconnectedSignal.connect(self.disconnected) self.connectionFinishedSignal.connect(self.connected) # Incomming signals self.helper.cf.connectSetupFinished.add_callback( self.connectionFinishedSignal.emit) self.helper.cf.disconnected.add_callback(self.disconnectedSignal.emit) self.helper.inputDeviceReader.inputUpdateSignal.connect( self.updateInputControl) self.helper.inputDeviceReader.calUpdateSignal.connect( self.calUpdateFromInput) self.helper.inputDeviceReader.emergencyStopSignal.connect( self.updateEmergencyStop) self._imu_data_signal.connect(self._imu_data_received) self._motor_data_signal.connect(self._motor_data_received) # Connect UI signals that are in this tab self.flightModeCombo.currentIndexChanged.connect(self.flightmodeChange) self.minThrust.valueChanged.connect(self.minMaxThrustChanged) self.maxThrust.valueChanged.connect(self.minMaxThrustChanged) self.thrustLoweringSlewRateLimit.valueChanged.connect( self.thrustLoweringSlewRateLimitChanged) self.slewEnableLimit.valueChanged.connect( self.thrustLoweringSlewRateLimitChanged) self.targetCalRoll.valueChanged.connect(self._trim_roll_changed) self.targetCalPitch.valueChanged.connect(self._trim_pitch_changed) self.maxAngle.valueChanged.connect(self.maxAngleChanged) self.maxYawRate.valueChanged.connect(self.maxYawRateChanged) self.uiSetupReadySignal.connect(self.uiSetupReady) self.clientXModeCheckbox.toggled.connect(self.changeXmode) self.isInCrazyFlightmode = False self.uiSetupReady() self.clientXModeCheckbox.setChecked(Config().get("client_side_xmode")) self.crazyflieXModeCheckbox.clicked.connect( lambda enabled: self.helper.cf.param.set_value( "flightctrl.xmode", str(enabled))) self.helper.cf.param.add_update_callback( "flightctrl.xmode", lambda name, checked: self.crazyflieXModeCheckbox.setChecked( eval(checked))) self.ratePidRadioButton.clicked.connect( lambda enabled: self.helper.cf.param.set_value( "flightctrl.ratepid", str(enabled))) self.angularPidRadioButton.clicked.connect( lambda enabled: self.helper.cf.param.set_value( "flightctrl.ratepid", str(not enabled))) self.helper.cf.param.add_update_callback( "flightctrl.ratepid", lambda name, checked: self.ratePidRadioButton.setChecked( eval(checked))) self.ai = AttitudeIndicator() self.gridLayout.addWidget(self.ai, 0, 1) self.targetCalPitch.setValue(Config().get("trim_pitch")) self.targetCalRoll.setValue(Config().get("trim_roll"))
def __init__(self, tabWidget, helper, *args): super(AutoFlightTab, self).__init__(*args) self.setupUi(self) global TheTab, natnet, copter TheTab = self self.tabName = "Auto Flight Control" self.menuName = "Auto Flight Control" self.tabWidget = tabWidget self.helper = helper self.disconnectedSignal.connect(self.disconnected) self.connectionFinishedSignal.connect(self.connected) # Incomming signals self.helper.cf.connectSetupFinished.add_callback( self.connectionFinishedSignal.emit) self.helper.cf.disconnected.add_callback(self.disconnectedSignal.emit) self.helper.inputDeviceReader.inputUpdateSignal.connect( self.updateInputControl) self.helper.inputDeviceReader.calUpdateSignal.connect( self.calUpdateFromInput) self.helper.inputDeviceReader.emergencyStopSignal.connect( self.updateEmergencyStop) self._imu_data_signal.connect(self._imu_data_received) self._motor_data_signal.connect(self._motor_data_received) # Connect UI signals that are in this tab self.flightModeCombo.currentIndexChanged.connect(self.flightmodeChange) self.minThrust.valueChanged.connect(self.minMaxThrustChanged) self.maxThrust.valueChanged.connect(self.minMaxThrustChanged) self.thrustLoweringSlewRateLimit.valueChanged.connect( self.thrustLoweringSlewRateLimitChanged) self.slewEnableLimit.valueChanged.connect( self.thrustLoweringSlewRateLimitChanged) self.targetCalRoll.valueChanged.connect(self._trim_roll_changed) self.targetCalPitch.valueChanged.connect(self._trim_pitch_changed) self.maxAngle.valueChanged.connect(self.maxAngleChanged) self.maxYawRate.valueChanged.connect(self.maxYawRateChanged) self.uiSetupReadySignal.connect(self.uiSetupReady) self.clientXModeCheckbox.toggled.connect(self.changeXmode) self.isInCrazyFlightmode = False self.uiSetupReady() self.clientXModeCheckbox.setChecked(Config().get("client_side_xmode")) self.crazyflieXModeCheckbox.clicked.connect( lambda enabled: self.helper.cf.param.set_value("flightctrl.xmode", str(enabled))) self.helper.cf.param.add_update_callback( "flightctrl.xmode", lambda name, checked: self.crazyflieXModeCheckbox.setChecked(eval(checked))) self.ratePidRadioButton.clicked.connect( lambda enabled: self.helper.cf.param.set_value("flightctrl.ratepid", str(enabled))) self.angularPidRadioButton.clicked.connect( lambda enabled: self.helper.cf.param.set_value("flightctrl.ratepid", str(not enabled))) self.helper.cf.param.add_update_callback("flightctrl.ratepid", lambda name, checked: self.ratePidRadioButton.setChecked(eval(checked))) self.ai = AttitudeIndicator() self.gridLayout.addWidget(self.ai, 0, 1) self.targetCalPitch.setValue(Config().get("trim_pitch")) self.targetCalRoll.setValue(Config().get("trim_roll")) """ ADDITION: automode ui """ self.automodeCheckBox.toggled.connect(self.changeAutoMode) self.loopmodeCheckBox.toggled.connect(self.changeLoopMode) self.followmodeCheckBox.toggled.connect(self.changeFollowMode) self.launchButton.clicked.connect(self.launchButtonClicked) self.upButton.clicked.connect(self.upButtonClicked) self.downButton.clicked.connect(self.downButtonClicked) self.frontButton.clicked.connect(self.frontButtonClicked) self.backButton.clicked.connect(self.backButtonClicked) self.rightButton.clicked.connect(self.rightButtonClicked) self.leftButton.clicked.connect(self.leftButtonClicked) self.setAButton.clicked.connect(self.setAButtonClicked) self.setBButton.clicked.connect(self.setBButtonClicked) self.goAButton.clicked.connect(self.goAButtonClicked) self.goBButton.clicked.connect(self.goBButtonClicked) self.neutralThrustBox.valueChanged.connect(self.neutralThrustChanged) self.thrustScaleBox.valueChanged.connect(self.thrustScaleChanged) self.horzScaleBox.valueChanged.connect(self.horzScaleChanged) self.velocityScaleBox.valueChanged.connect(self.velocityScaleChanged) self.velocitySmoothBox.valueChanged.connect(self.velocitySmoothChanged) self.lastUIUpdate = time() """ ADDITION: replace joy stick object's input device with our wrapper class """ print "AutoFlightTab wrapping device" d = self.helper.inputDeviceReader.inputdevice w = DeviceWrapper(d) w.automode = False self.helper.inputDeviceReader.inputdevice = w """ ADDITION: initialize tracker fields of interface """ self.position.setText("received tracker position") self.orientation.setText("received tracker orientation") """ ADDITION: create thread to run command socket """ cmdthread = threading.Thread(target=natnet.manage_cmd_socket, args=[copter]) # cmdthread = threading.Thread(None, manage_cmd_socket, None) cmdthread.setDaemon(True) cmdthread.start()
class SwarmTab(Tab, example_tab_class): uiSetupReadySignal = pyqtSignal() _motor_data_signal = pyqtSignal(int, object, object) _imu_data_signal = pyqtSignal(int, object, object) _baro_data_signal = pyqtSignal(int, object, object) _input_updated_signal = pyqtSignal(float, float, float, float) _rp_trim_updated_signal = pyqtSignal(float, float) _emergency_stop_updated_signal = pyqtSignal(bool) _assisted_control_updated_signal = pyqtSignal(bool) _heighthold_input_updated_signal = pyqtSignal(float, float, float, float) _hover_input_updated_signal = pyqtSignal(float, float, float, float) _log_error_signal = pyqtSignal(object, str) _plotter_log_error_signal = pyqtSignal(object, str) _log_data_signal = pyqtSignal(int, object, object) _disconnected_signal = pyqtSignal(str) _connected_signal = pyqtSignal(str) colors = [ (60, 200, 60), # green (40, 100, 255), # blue (255, 130, 240), # magenta (255, 26, 28), # red (255, 170, 0), # orange (40, 180, 240), # cyan (153, 153, 153), # grey (176, 96, 50), # brown (180, 60, 240), # purple ] # UI_DATA_UPDATE_FPS = 10 connectionFinishedSignal = pyqtSignal(str) disconnectedSignal = pyqtSignal(str) _limiting_updated = pyqtSignal(bool, bool, bool) def __init__(self, tabWidget, helper, *args): super(SwarmTab, self).__init__(*args) self.setupUi(self) self.tabName = "Swarm" self.menuName = "Swarm" self.tabWidget = tabWidget self.helper = helper self.disconnectedSignal.connect(self.disconnected) self.connectionFinishedSignal.connect(self.connected) # Incoming signals self.helper.cf.connected.add_callback( self.connectionFinishedSignal.emit) self.helper.cf.disconnected.add_callback(self.disconnectedSignal.emit) self._input_updated_signal.connect(self.updateInputControl) self.helper.inputDeviceReader.input_updated.add_callback( self._input_updated_signal.emit) self._rp_trim_updated_signal.connect(self.calUpdateFromInput) self.helper.inputDeviceReader.rp_trim_updated.add_callback( self._rp_trim_updated_signal.emit) self._emergency_stop_updated_signal.connect(self.updateEmergencyStop) self.helper.inputDeviceReader.emergency_stop_updated.add_callback( self._emergency_stop_updated_signal.emit) self.helper.inputDeviceReader.heighthold_input_updated.add_callback( self._heighthold_input_updated_signal.emit) self._heighthold_input_updated_signal.connect( self._heighthold_input_updated) self.helper.inputDeviceReader.hover_input_updated.add_callback( self._hover_input_updated_signal.emit) self._hover_input_updated_signal.connect( self._hover_input_updated) self.helper.inputDeviceReader.assisted_control_updated.add_callback( self._assisted_control_updated_signal.emit) self._assisted_control_updated_signal.connect( self._assisted_control_updated) self._imu_data_signal.connect(self._imu_data_received) self._baro_data_signal.connect(self._baro_data_received) self._motor_data_signal.connect(self._motor_data_received) self._log_error_signal.connect(self._logging_error) # PlotWidget Stuff self._plot = PlotWidget(fps=30) # Check if we could find the PyQtImport. If not, then # set this tab as disabled self.enabled = self._plot.can_enable self._model = LogConfigModel() self.dataSelector.setModel(self._model) self.plotLayout.addWidget(self._plot) self._log_data_signal.connect(self._log_data_received) self._plotter_log_error_signal.connect(self._plotter_logging_error) if self.enabled: self._disconnected_signal.connect(self._disconnected) self.helper.cf.disconnected.add_callback( self._disconnected_signal.emit) self._connected_signal.connect(self._connected) self.helper.cf.connected.add_callback( self._connected_signal.emit) self.helper.cf.log.block_added_cb.add_callback(self._config_added) self.dataSelector.currentIndexChanged.connect( self._selection_changed) self._previous_config = None self._started_previous = False # Connect UI signals that are in this tab #self.flightModeCombo.currentIndexChanged.connect(self.flightmodeChange) # self.minThrust.valueChanged.connect(self.minMaxThrustChanged) # self.maxThrust.valueChanged.connect(self.minMaxThrustChanged) # self.thrustLoweringSlewRateLimit.valueChanged.connect( # self.thrustLoweringSlewRateLimitChanged) # self.slewEnableLimit.valueChanged.connect( # self.thrustLoweringSlewRateLimitChanged) self.targetCalRoll.valueChanged.connect(self._trim_roll_changed) self.inputTypeComboBox.currentIndexChanged.connect(self.inputtypeChange) self.stepHeightCombo.valueChanged.connect(self._step_height_changed) self.frequencyCombo.valueChanged.connect(self._sine_frequency_changed) self.referenceHeightCheckbox.toggled.connect(lambda: self._use_ref_input(self.referenceHeightCheckbox.isChecked())) self.targetCalPitch.valueChanged.connect(self._trim_pitch_changed) self.updateGainsBtn.clicked.connect(self._controller_gain_changed) self.k1Combo.valueChanged.connect(self._k123_gain_changed) self.k2Combo.valueChanged.connect(self._k123_gain_changed) self.k3Combo.valueChanged.connect(self._k123_gain_changed) # self.maxAngle.valueChanged.connect(self.maxAngleChanged) # self.maxYawRate.valueChanged.connect(self.maxYawRateChanged) self.uiSetupReadySignal.connect(self.uiSetupReady) self.clientXModeCheckbox.toggled.connect(self.changeXmode) self.isInCrazyFlightmode = False self.uiSetupReady() # self.clientXModeCheckbox.setChecked(Config().get("client_side_xmode")) # # self.crazyflieXModeCheckbox.clicked.connect( # lambda enabled: # self.helper.cf.param.set_value("flightmode.x", # str(enabled))) # self.helper.cf.param.add_update_callback( # group="flightmode", name="xmode", # cb=(lambda name, checked: # self.crazyflieXModeCheckbox.setChecked(eval(checked)))) # # self.ratePidRadioButton.clicked.connect( # lambda enabled: # self.helper.cf.param.set_value("flightmode.ratepid", # str(enabled))) # # self.angularPidRadioButton.clicked.connect( # lambda enabled: # self.helper.cf.param.set_value("flightmode.ratepid", # str(not enabled))) # # self._led_ring_headlight.clicked.connect( # lambda enabled: # self.helper.cf.param.set_value("ring.headlightEnable", # str(enabled))) # self.helper.cf.param.add_update_callback( # group="flightmode", name="ratepid", # cb=(lambda name, checked: # self.ratePidRadioButton.setChecked(eval(checked)))) # self.helper.cf.param.add_update_callback( # group="cpu", name="flash", # cb=self._set_enable_client_xmode) # self.helper.cf.param.add_update_callback( # group="ring", name="headlightEnable", # cb=(lambda name, checked: # self._led_ring_headlight.setChecked(eval(checked)))) self._ledring_nbr_effects = 0 # self.helper.cf.param.add_update_callback( # group="ring", # name="effect", # cb=self._ring_effect_updated) self.helper.cf.param.add_update_callback( group="imu_sensors", cb=self._set_available_sensors) # self.helper.cf.param.all_updated.add_callback( # self._ring_populate_dropdown) self.logBaro = None self.logAltHold = None self.ai = AttitudeIndicator() self.verticalLayout_2.addWidget(self.ai) # self.logo = QLabel(self) # pixmap = QPixmap('C:\dev\crazyflie-clients-python\src\cfclient/SUTDLogo.png') # self.logo.setPixmap(pixmap.scaled(150, 150, Qt.KeepAspectRatio)) # self.verticalLayout.addWidget(self.logo) self.splitter.setSizes([1000, 1]) self.targetCalPitch.setValue(Config().get("trim_pitch")) self.targetCalRoll.setValue(Config().get("trim_roll")) self.helper.inputDeviceReader.alt1_updated.add_callback( self.alt1_updated) self.helper.inputDeviceReader.alt2_updated.add_callback( self.alt2_updated) self._tf_state = 0 self._ring_effect = 0 # # Connect callbacks for input device limiting of rpöö/pitch/yaw/thust # self.helper.inputDeviceReader.limiting_updated.add_callback( # self._limiting_updated.emit) # self._limiting_updated.connect(self._set_limiting_enabled) def _set_enable_client_xmode(self, name, value): if eval(value) <= 128: self.clientXModeCheckbox.setEnabled(True) else: self.clientXModeCheckbox.setEnabled(False) self.clientXModeCheckbox.setChecked(False) def _set_limiting_enabled(self, rp_limiting_enabled, yaw_limiting_enabled, thrust_limiting_enabled): self.maxAngle.setEnabled(rp_limiting_enabled) self.targetCalRoll.setEnabled(rp_limiting_enabled) self.targetCalPitch.setEnabled(rp_limiting_enabled) self.maxYawRate.setEnabled(yaw_limiting_enabled) self.maxThrust.setEnabled(thrust_limiting_enabled) self.minThrust.setEnabled(thrust_limiting_enabled) self.slewEnableLimit.setEnabled(thrust_limiting_enabled) self.thrustLoweringSlewRateLimit.setEnabled(thrust_limiting_enabled) def thrustToPercentage(self, thrust): return ((thrust / MAX_THRUST) * 100.0) def uiSetupReady(self): flightComboIndex = self.flightModeCombo.findText( Config().get("flightmode"), Qt.MatchFixedString) if (flightComboIndex < 0): self.flightModeCombo.setCurrentIndex(0) self.flightModeCombo.currentIndexChanged.emit(0) else: self.flightModeCombo.setCurrentIndex(flightComboIndex) self.flightModeCombo.currentIndexChanged.emit(flightComboIndex) def _logging_error(self, log_conf, msg): QMessageBox.about(self, "Log error", "Error when starting log config [%s]: %s" % ( log_conf.name, msg)) def _motor_data_received(self, timestamp, data, logconf): if self.isVisible(): self.actualM1.setValue(data["motor.m1"]) self.actualM2.setValue(data["motor.m2"]) self.actualM3.setValue(data["motor.m3"]) self.actualM4.setValue(data["motor.m4"]) def _baro_data_received(self, timestamp, data, logconf): if self.isVisible(): estimated_z = data[LOG_NAME_ESTIMATED_Z] self.actualHeight.setText(("%.2f" % estimated_z)) self.ai.setBaro(estimated_z, self.is_visible()) def _heighthold_input_updated(self, roll, pitch, yaw, height): if (self.isVisible() and (self.helper.inputDeviceReader.get_assisted_control() == self.helper.inputDeviceReader.ASSISTED_CONTROL_HEIGHTHOLD)): self.targetRoll.setText(("%0.2f deg" % roll)) self.targetPitch.setText(("%0.2f deg" % pitch)) self.targetYaw.setText(("%0.2f deg/s" % yaw)) self.targetHeight.setText(("%.2f m" % height)) self.ai.setHover(height, self.is_visible()) def _hover_input_updated(self, vx, vy, yaw, height): if (self.isVisible() and (self.helper.inputDeviceReader.get_assisted_control() == self.helper.inputDeviceReader.ASSISTED_CONTROL_HOVER)): self.targetRoll.setText(("%0.2f m/s" % vy)) self.targetPitch.setText(("%0.2f m/s" % vx)) self.targetYaw.setText(("%0.2f deg/s" % yaw)) self.targetHeight.setText(("%.2f m" % height)) self.ai.setHover(height, self.is_visible()) def _imu_data_received(self, timestamp, data, logconf): if self.isVisible(): self.actualRoll.setText(("%.2f" % data["stabilizer.roll"])) self.actualPitch.setText(("%.2f" % data["stabilizer.pitch"])) self.actualYaw.setText(("%.2f" % data["stabilizer.yaw"])) self.actualThrust.setText("%.2f%%" % self.thrustToPercentage( data["stabilizer.thrust"])) self.ai.setRollPitch(-data["stabilizer.roll"], data["stabilizer.pitch"], self.is_visible()) def connected(self, linkURI): # Reset Gains self.helper.cf.param.set_value("posCtlPid.zKd", str(0.0)) self.helper.cf.param.set_value("posCtlPid.zKi", str(0.5)) self.helper.cf.param.set_value("posCtlPid.zKp", str(40.0)) self.k1Combo.setValue(40.0) self.helper.cf.param.set_value("posCtlPid.zVelMax", str(15.0)) self.helper.cf.param.set_value("velCtlPid.vzKd", str(0.0)) self.helper.cf.param.set_value("velCtlPid.vzKi", str(0.0)) self.helper.cf.param.set_value("velCtlPid.vzKp", str(15.0)) self.k2Combo.setValue(15.0) self.k3Combo.setValue(0.0) # IMU & THRUST lg = LogConfig("Stabilizer", Config().get("ui_update_period")) lg.add_variable("stabilizer.roll", "float") lg.add_variable("stabilizer.pitch", "float") lg.add_variable("stabilizer.yaw", "float") lg.add_variable("stabilizer.thrust", "uint16_t") try: self.helper.cf.log.add_config(lg) lg.data_received_cb.add_callback(self._imu_data_signal.emit) lg.error_cb.add_callback(self._log_error_signal.emit) lg.start() except KeyError as e: logger.warning(str(e)) except AttributeError as e: logger.warning(str(e)) # MOTOR lg = LogConfig("Motors", Config().get("ui_update_period")) lg.add_variable("motor.m1") lg.add_variable("motor.m2") lg.add_variable("motor.m3") lg.add_variable("motor.m4") try: self.helper.cf.log.add_config(lg) lg.data_received_cb.add_callback(self._motor_data_signal.emit) lg.error_cb.add_callback(self._log_error_signal.emit) lg.start() except KeyError as e: logger.warning(str(e)) except AttributeError as e: logger.warning(str(e)) self._populate_assisted_mode_dropdown() def _set_available_sensors(self, name, available): logger.info("[%s]: %s", name, available) available = eval(available) self.actualHeight.setEnabled(True) self.helper.inputDeviceReader.set_alt_hold_available(available) if not self.logBaro: # The sensor is available, set up the logging self.logBaro = LogConfig("Baro", 200) self.logBaro.add_variable(LOG_NAME_ESTIMATED_Z, "float") try: self.helper.cf.log.add_config(self.logBaro) self.logBaro.data_received_cb.add_callback( self._baro_data_signal.emit) self.logBaro.error_cb.add_callback( self._log_error_signal.emit) self.logBaro.start() except KeyError as e: logger.warning(str(e)) except AttributeError as e: logger.warning(str(e)) def disconnected(self, linkURI): self.ai.setRollPitch(0, 0) self.actualM1.setValue(0) self.actualM2.setValue(0) self.actualM3.setValue(0) self.actualM4.setValue(0) self.actualRoll.setText("") self.actualPitch.setText("") self.actualYaw.setText("") self.actualThrust.setText("") self.actualHeight.setText("") self.targetHeight.setText("Not Set") self.ai.setHover(0, self.is_visible()) self.targetHeight.setEnabled(False) self.actualHeight.setEnabled(False) self.clientXModeCheckbox.setEnabled(False) self.logBaro = None self.logAltHold = None # self._led_ring_effect.setEnabled(False) # self._led_ring_effect.clear() # try: # self._led_ring_effect.currentIndexChanged.disconnect( # self._ring_effect_changed) # except TypeError: # # Signal was not connected # pass # self._led_ring_effect.setCurrentIndex(-1) # self._led_ring_headlight.setEnabled(False) try: self._assist_mode_combo.currentIndexChanged.disconnect( self._assist_mode_changed) except TypeError: # Signal was not connected pass self._assist_mode_combo.setEnabled(False) self._assist_mode_combo.clear() def minMaxThrustChanged(self): self.helper.inputDeviceReader.min_thrust = self.minThrust.value() self.helper.inputDeviceReader.max_thrust = self.maxThrust.value() if (self.isInCrazyFlightmode is True): Config().set("min_thrust", self.minThrust.value()) Config().set("max_thrust", self.maxThrust.value()) def thrustLoweringSlewRateLimitChanged(self): self.helper.inputDeviceReader.thrust_slew_rate = ( self.thrustLoweringSlewRateLimit.value()) self.helper.inputDeviceReader.thrust_slew_limit = ( self.slewEnableLimit.value()) if (self.isInCrazyFlightmode is True): Config().set("slew_limit", self.slewEnableLimit.value()) Config().set("slew_rate", self.thrustLoweringSlewRateLimit.value()) def maxYawRateChanged(self): logger.debug("MaxYawrate changed to %d", self.maxYawRate.value()) self.helper.inputDeviceReader.max_yaw_rate = self.maxYawRate.value() if (self.isInCrazyFlightmode is True): Config().set("max_yaw", self.maxYawRate.value()) def maxAngleChanged(self): logger.debug("MaxAngle changed to %d", self.maxAngle.value()) self.helper.inputDeviceReader.max_rp_angle = self.maxAngle.value() if (self.isInCrazyFlightmode is True): Config().set("max_rp", self.maxAngle.value()) def _trim_pitch_changed(self, value): logger.debug("Pitch trim updated to [%f]" % value) self.helper.inputDeviceReader.trim_pitch = value Config().set("trim_pitch", value) def _trim_roll_changed(self, value): logger.debug("Roll trim updated to [%f]" % value) self.helper.inputDeviceReader.trim_roll = value Config().set("trim_roll", value) def _k123_gain_changed(self): logger.debug("controller gains updated") self.updateGainsBtn.setStyleSheet("background-color:#0078d7; color:#ffffff;") self.resetGainsBtn.setStyleSheet("background-color:#0078d7; color:#ffffff;") def _controller_gain_changed(self): self.updateGainsBtn.setStyleSheet("background-color:#f0f0f0; color:#000000;") self.helper.cf.param.set_value("posCtlPid.zKi", str(self.k3Combo.value())) self.helper.cf.param.set_value("posCtlPid.zKp", str(self.k1Combo.value())) self.helper.cf.param.set_value("velCtlPid.vzKp", str(self.k2Combo.value())) def _reset_gain_changed(self): # Reset Gains self.k1Combo.value(40.0) self.k2Combo.setValue(15.0) self.k3Combo.setValue(0.0) self.helper.cf.param.set_value("posCtlPid.zKi", str(self.k3Combo.value())) self.helper.cf.param.set_value("posCtlPid.zKp", str(self.k1Combo.value())) self.helper.cf.param.set_value("velCtlPid.vzKp", str(self.k2Combo.value())) self.resetGainsBtn.setStyleSheet("background-color:#f0f0f0; color:#000000;") def _step_height_changed(self, reference): logger.debug("Reference height updated to [%f]" % reference) self.targetHeight.setText(("%.2f m" % reference)) self.ai.setHover(reference, self.is_visible()) self.helper.referenceHeight = reference self.helper.inputTime = 0.0 def _sine_frequency_changed(self, freq): logger.debug("Sine-wave frequency updated to [%f]" % freq) self.helper.sinewaveFrequency = freq self.helper.inputTime = 0.0 def _use_ref_input(self, enabled): logger.debug("Using reference input") self.helper.useReferenceHeight = enabled self.helper.inputTime = 0.0 def inputtypeChange(self, item): logger.debug("Changed input type to %s", self.inputTypeComboBox.itemText(item)) self.helper.inputType = item self.helper.inputTime = 0.0 # item is a number, #0 = 'Step Input', #1 = 'Sine Wave', #2 = 'Ramp' def calUpdateFromInput(self, rollCal, pitchCal): logger.debug("Trim changed on joystick: roll=%.2f, pitch=%.2f", rollCal, pitchCal) self.targetCalRoll.setValue(rollCal) self.targetCalPitch.setValue(pitchCal) def updateInputControl(self, roll, pitch, yaw, thrust): self.targetRoll.setText(("%0.2f deg" % roll)) self.targetPitch.setText(("%0.2f deg" % pitch)) self.targetYaw.setText(("%0.2f deg/s" % yaw)) self.targetThrust.setText(("%0.2f %%" % self.thrustToPercentage(thrust))) self.thrustProgress.setValue(thrust) def setMotorLabelsEnabled(self, enabled): self.M1label.setEnabled(enabled) self.M2label.setEnabled(enabled) self.M3label.setEnabled(enabled) self.M4label.setEnabled(enabled) def emergencyStopStringWithText(self, text): return ("<html><head/><body><p>" "<span style='font-weight:600; color:#7b0005;'>{}</span>" "</p></body></html>".format(text)) def updateEmergencyStop(self, emergencyStop): if emergencyStop: self.setMotorLabelsEnabled(False) self.emergency_stop_label.setText( self.emergencyStopStringWithText("Kill switch active")) else: self.setMotorLabelsEnabled(True) self.emergency_stop_label.setText("") def flightmodeChange(self, item): Config().set("flightmode", str(self.flightModeCombo.itemText(item))) logger.debug("Changed flightmode to %s", self.flightModeCombo.itemText(item)) self.isInCrazyFlightmode = False if (item == 0): # Normal self.maxAngle.setValue(Config().get("normal_max_rp")) self.maxThrust.setValue(Config().get("normal_max_thrust")) self.minThrust.setValue(Config().get("normal_min_thrust")) self.slewEnableLimit.setValue(Config().get("normal_slew_limit")) self.thrustLoweringSlewRateLimit.setValue( Config().get("normal_slew_rate")) self.maxYawRate.setValue(Config().get("normal_max_yaw")) if (item == 1): # Advanced self.maxAngle.setValue(Config().get("max_rp")) self.maxThrust.setValue(Config().get("max_thrust")) self.minThrust.setValue(Config().get("min_thrust")) self.slewEnableLimit.setValue(Config().get("slew_limit")) self.thrustLoweringSlewRateLimit.setValue( Config().get("slew_rate")) self.maxYawRate.setValue(Config().get("max_yaw")) self.isInCrazyFlightmode = True if (item == 0): newState = False else: newState = True self.maxThrust.setEnabled(newState) self.maxAngle.setEnabled(newState) self.minThrust.setEnabled(newState) self.thrustLoweringSlewRateLimit.setEnabled(newState) self.slewEnableLimit.setEnabled(newState) self.maxYawRate.setEnabled(newState) def _assist_mode_changed(self, item): mode = None if (item == 0): # Altitude hold mode = JoystickReader.ASSISTED_CONTROL_ALTHOLD if (item == 1): # Position hold mode = JoystickReader.ASSISTED_CONTROL_POSHOLD if (item == 2): # Position hold mode = JoystickReader.ASSISTED_CONTROL_HEIGHTHOLD if (item == 3): # Position hold mode = JoystickReader.ASSISTED_CONTROL_HOVER self.helper.inputDeviceReader.set_assisted_control(mode) Config().set("assistedControl", mode) def _assisted_control_updated(self, enabled): if self.helper.inputDeviceReader.get_assisted_control() == \ JoystickReader.ASSISTED_CONTROL_POSHOLD: self.targetThrust.setEnabled(not enabled) self.targetRoll.setEnabled(not enabled) self.targetPitch.setEnabled(not enabled) elif ((self.helper.inputDeviceReader.get_assisted_control() == JoystickReader.ASSISTED_CONTROL_HEIGHTHOLD) or (self.helper.inputDeviceReader.get_assisted_control() == JoystickReader.ASSISTED_CONTROL_HOVER)): self.targetThrust.setEnabled(not enabled) self.targetHeight.setEnabled(enabled) else: self.helper.cf.param.set_value("flightmode.althold", str(enabled)) @pyqtSlot(bool) def changeXmode(self, checked): self.helper.cf.commander.set_client_xmode(checked) Config().set("client_side_xmode", checked) logger.info("Clientside X-mode enabled: %s", checked) def alt1_updated(self, state): if state: new_index = (self._ring_effect+1) % (self._ledring_nbr_effects+1) self.helper.cf.param.set_value("ring.effect", str(new_index)) def alt2_updated(self, state): self.helper.cf.param.set_value("ring.headlightEnable", str(state)) def _ring_populate_dropdown(self): try: nbr = int(self.helper.cf.param.values["ring"]["neffect"]) current = int(self.helper.cf.param.values["ring"]["effect"]) except KeyError: return # Used only in alt1_updated function self._ring_effect = current self._ledring_nbr_effects = nbr hardcoded_names = {0: "Off", 1: "White spinner", 2: "Color spinner", 3: "Tilt effect", 4: "Brightness effect", 5: "Color spinner 2", 6: "Double spinner", 7: "Solid color effect", 8: "Factory test", 9: "Battery status", 10: "Boat lights", 11: "Alert", 12: "Gravity", 13: "LED tab"} for i in range(nbr + 1): name = "{}: ".format(i) if i in hardcoded_names: name += hardcoded_names[i] else: name += "N/A" self._led_ring_effect.addItem(name, i) self._led_ring_effect.currentIndexChanged.connect( self._ring_effect_changed) self._led_ring_effect.setCurrentIndex(current) if self.helper.cf.mem.ow_search(vid=0xBC, pid=0x01): self._led_ring_effect.setEnabled(True) self._led_ring_headlight.setEnabled(True) def _ring_effect_changed(self, index): self._ring_effect = index if index > -1: i = self._led_ring_effect.itemData(index) logger.info("Changed effect to {}".format(i)) if i != int(self.helper.cf.param.values["ring"]["effect"]): self.helper.cf.param.set_value("ring.effect", str(i)) def _ring_effect_updated(self, name, value): if self.helper.cf.param.is_updated: self._led_ring_effect.setCurrentIndex(int(value)) def _populate_assisted_mode_dropdown(self): self._assist_mode_combo.addItem("Altitude hold", 0) self._assist_mode_combo.addItem("Position hold", 1) self._assist_mode_combo.addItem("Height hold", 2) self._assist_mode_combo.addItem("Hover", 3) heightHoldPossible = False hoverPossible = False if self.helper.cf.mem.ow_search(vid=0xBC, pid=0x09): heightHoldPossible = True if self.helper.cf.mem.ow_search(vid=0xBC, pid=0x0A): heightHoldPossible = True hoverPossible = True if not heightHoldPossible: self._assist_mode_combo.model().item(2).setEnabled(False) else: self._assist_mode_combo.model().item(0).setEnabled(False) if not hoverPossible: self._assist_mode_combo.model().item(3).setEnabled(False) else: self._assist_mode_combo.model().item(0).setEnabled(False) self._assist_mode_combo.currentIndexChanged.connect( self._assist_mode_changed) self._assist_mode_combo.setEnabled(True) try: assistmodeComboIndex = Config().get("assistedControl") if assistmodeComboIndex == 3 and not hoverPossible: self._assist_mode_combo.setCurrentIndex(0) self._assist_mode_combo.currentIndexChanged.emit(0) elif assistmodeComboIndex == 0 and hoverPossible: self._assist_mode_combo.setCurrentIndex(3) self._assist_mode_combo.currentIndexChanged.emit(3) elif assistmodeComboIndex == 2 and not heightHoldPossible: self._assist_mode_combo.setCurrentIndex(0) self._assist_mode_combo.currentIndexChanged.emit(0) elif assistmodeComboIndex == 0 and heightHoldPossible: self._assist_mode_combo.setCurrentIndex(2) self._assist_mode_combo.currentIndexChanged.emit(2) else: self._assist_mode_combo.setCurrentIndex(assistmodeComboIndex) self._assist_mode_combo.currentIndexChanged.emit( assistmodeComboIndex) except KeyError: defaultOption = 0 if hoverPossible: defaultOption = 3 elif heightHoldPossible: defaultOption = 2 self._assist_mode_combo.setCurrentIndex(defaultOption) self._assist_mode_combo.currentIndexChanged.emit(defaultOption) def _connected(self, link_uri): """Callback when the Crazyflie has been connected""" self._plot.removeAllDatasets() self._plot.set_title("") def _disconnected(self, link_uri): """Callback for when the Crazyflie has been disconnected""" self._model.beginResetModel() self._model.reset() self._model.endResetModel() self.dataSelector.setCurrentIndex(-1) self._previous_config = None self._started_previous = False def _log_data_signal_wrapper(self, ts, data, logconf): """Wrapper for signal""" # For some reason the *.emit functions are not # the same over time (?!) so they cannot be registered and then # removed as callbacks. self._log_data_signal.emit(ts, data, logconf) def _log_error_signal_wrapper(self, config, msg): """Wrapper for signal""" # For some reason the *.emit functions are not # the same over time (?!) so they cannot be registered and then # removed as callbacks. self._plotter_log_error_signal.emit(config, msg) def _selection_changed(self, i): """Callback from ComboBox when a new item has been selected""" # Check if we have disconnected if i < 0: return # First check if we need to stop the old block if self._started_previous and self._previous_config: logger.debug("Should stop config [%s], stopping!", self._previous_config.name) self._previous_config.delete() # Remove our callback for the previous config if self._previous_config: self._previous_config.data_received_cb.remove_callback( self._log_data_signal_wrapper) self._previous_config.error_cb.remove_callback( self._log_error_signal_wrapper) lg = self._model.get_config(i) if not lg.started: logger.debug("Config [%s] not started, starting!", lg.name) self._started_previous = True lg.start() else: self._started_previous = False self._plot.removeAllDatasets() color_selector = 0 self._plot.set_title(lg.name) for d in lg.variables: self._plot.add_curve(d.name, self.colors[ color_selector % len(self.colors)]) color_selector += 1 lg.data_received_cb.add_callback(self._log_data_signal_wrapper) lg.error_cb.add_callback(self._log_error_signal_wrapper) self._previous_config = lg def _config_added(self, logconfig): """Callback from the log layer when a new config has been added""" logger.debug("Callback for new config [%s]", logconfig.name) self._model.add_block(logconfig) def _plotter_logging_error(self, log_conf, msg): """Callback from the log layer when an error occurs""" QMessageBox.about( self, "Plot error", "Error when starting log config [%s]: %s" % ( log_conf.name, msg)) def _log_data_received(self, timestamp, data, logconf): """Callback when the log layer receives new data""" # Check so that the incoming data belongs to what we are currently # logging if self._previous_config: if self._previous_config.name == logconf.name: self._plot.add_data(data, timestamp)
class FlightTab(Tab, flight_tab_class): uiSetupReadySignal = pyqtSignal() _motor_data_signal = pyqtSignal(int, object, object) _imu_data_signal = pyqtSignal(int, object, object) _baro_data_signal = pyqtSignal(int, object, object) _input_updated_signal = pyqtSignal(float, float, float, float) _rp_trim_updated_signal = pyqtSignal(float, float) _emergency_stop_updated_signal = pyqtSignal(bool) _assisted_control_updated_signal = pyqtSignal(bool) _heighthold_input_updated_signal = pyqtSignal(float, float, float, float) _hover_input_updated_signal = pyqtSignal(float, float, float, float) _log_error_signal = pyqtSignal(object, str) # UI_DATA_UPDATE_FPS = 10 connectionFinishedSignal = pyqtSignal(str) disconnectedSignal = pyqtSignal(str) _limiting_updated = pyqtSignal(bool, bool, bool) def __init__(self, tabWidget, helper, *args): super(FlightTab, self).__init__(*args) self.setupUi(self) self.tabName = "Flight Control" self.menuName = "Flight Control" self.tabWidget = tabWidget self.helper = helper self.disconnectedSignal.connect(self.disconnected) self.connectionFinishedSignal.connect(self.connected) # Incomming signals self.helper.cf.connected.add_callback( self.connectionFinishedSignal.emit) self.helper.cf.disconnected.add_callback(self.disconnectedSignal.emit) self._input_updated_signal.connect(self.updateInputControl) self.helper.inputDeviceReader.input_updated.add_callback( self._input_updated_signal.emit) self._rp_trim_updated_signal.connect(self.calUpdateFromInput) self.helper.inputDeviceReader.rp_trim_updated.add_callback( self._rp_trim_updated_signal.emit) self._emergency_stop_updated_signal.connect(self.updateEmergencyStop) self.helper.inputDeviceReader.emergency_stop_updated.add_callback( self._emergency_stop_updated_signal.emit) self.helper.inputDeviceReader.heighthold_input_updated.add_callback( self._heighthold_input_updated_signal.emit) self._heighthold_input_updated_signal.connect( self._heighthold_input_updated) self.helper.inputDeviceReader.hover_input_updated.add_callback( self._hover_input_updated_signal.emit) self._hover_input_updated_signal.connect(self._hover_input_updated) self.helper.inputDeviceReader.assisted_control_updated.add_callback( self._assisted_control_updated_signal.emit) self._assisted_control_updated_signal.connect( self._assisted_control_updated) self._imu_data_signal.connect(self._imu_data_received) self._baro_data_signal.connect(self._baro_data_received) self._motor_data_signal.connect(self._motor_data_received) self._log_error_signal.connect(self._logging_error) # Connect UI signals that are in this tab self.flightModeCombo.currentIndexChanged.connect(self.flightmodeChange) self.minThrust.valueChanged.connect(self.minMaxThrustChanged) self.maxThrust.valueChanged.connect(self.minMaxThrustChanged) self.thrustLoweringSlewRateLimit.valueChanged.connect( self.thrustLoweringSlewRateLimitChanged) self.slewEnableLimit.valueChanged.connect( self.thrustLoweringSlewRateLimitChanged) self.targetCalRoll.valueChanged.connect(self._trim_roll_changed) self.targetCalPitch.valueChanged.connect(self._trim_pitch_changed) self.maxAngle.valueChanged.connect(self.maxAngleChanged) self.maxYawRate.valueChanged.connect(self.maxYawRateChanged) self.uiSetupReadySignal.connect(self.uiSetupReady) self.clientXModeCheckbox.toggled.connect(self.changeXmode) self.isInCrazyFlightmode = False self.uiSetupReady() self.clientXModeCheckbox.setChecked(Config().get("client_side_xmode")) self.crazyflieXModeCheckbox.clicked.connect( lambda enabled: self.helper.cf.param.set_value( "flightmode.x", str(enabled))) self.helper.cf.param.add_update_callback( group="flightmode", name="xmode", cb=(lambda name, checked: self.crazyflieXModeCheckbox.setChecked( eval(checked)))) self.ratePidRadioButton.clicked.connect( lambda enabled: self.helper.cf.param.set_value( "flightmode.ratepid", str(enabled))) self.angularPidRadioButton.clicked.connect( lambda enabled: self.helper.cf.param.set_value( "flightmode.ratepid", str(not enabled))) self._led_ring_headlight.clicked.connect( lambda enabled: self.helper.cf.param.set_value( "ring.headlightEnable", str(enabled))) self.helper.cf.param.add_update_callback( group="flightmode", name="ratepid", cb=(lambda name, checked: self.ratePidRadioButton.setChecked( eval(checked)))) self.helper.cf.param.add_update_callback( group="cpu", name="flash", cb=self._set_enable_client_xmode) self.helper.cf.param.add_update_callback( group="ring", name="headlightEnable", cb=(lambda name, checked: self._led_ring_headlight.setChecked( eval(checked)))) self._ledring_nbr_effects = 0 self.helper.cf.param.add_update_callback(group="ring", name="effect", cb=self._ring_effect_updated) self.helper.cf.param.add_update_callback( group="imu_sensors", cb=self._set_available_sensors) self.helper.cf.param.all_updated.add_callback( self._ring_populate_dropdown) self.logBaro = None self.logAltHold = None self.ai = AttitudeIndicator() self.verticalLayout_4.addWidget(self.ai) self.splitter.setSizes([1000, 1]) self.targetCalPitch.setValue(Config().get("trim_pitch")) self.targetCalRoll.setValue(Config().get("trim_roll")) self.helper.inputDeviceReader.alt1_updated.add_callback( self.alt1_updated) self.helper.inputDeviceReader.alt2_updated.add_callback( self.alt2_updated) self._tf_state = 0 self._ring_effect = 0 # Connect callbacks for input device limiting of rpöö/pitch/yaw/thust self.helper.inputDeviceReader.limiting_updated.add_callback( self._limiting_updated.emit) self._limiting_updated.connect(self._set_limiting_enabled) def _set_enable_client_xmode(self, name, value): if eval(value) <= 128: self.clientXModeCheckbox.setEnabled(True) else: self.clientXModeCheckbox.setEnabled(False) self.clientXModeCheckbox.setChecked(False) def _set_limiting_enabled(self, rp_limiting_enabled, yaw_limiting_enabled, thrust_limiting_enabled): self.maxAngle.setEnabled(rp_limiting_enabled) self.targetCalRoll.setEnabled(rp_limiting_enabled) self.targetCalPitch.setEnabled(rp_limiting_enabled) self.maxYawRate.setEnabled(yaw_limiting_enabled) self.maxThrust.setEnabled(thrust_limiting_enabled) self.minThrust.setEnabled(thrust_limiting_enabled) self.slewEnableLimit.setEnabled(thrust_limiting_enabled) self.thrustLoweringSlewRateLimit.setEnabled(thrust_limiting_enabled) def thrustToPercentage(self, thrust): return ((thrust / MAX_THRUST) * 100.0) def uiSetupReady(self): flightComboIndex = self.flightModeCombo.findText( Config().get("flightmode"), Qt.MatchFixedString) if (flightComboIndex < 0): self.flightModeCombo.setCurrentIndex(0) self.flightModeCombo.currentIndexChanged.emit(0) else: self.flightModeCombo.setCurrentIndex(flightComboIndex) self.flightModeCombo.currentIndexChanged.emit(flightComboIndex) def _logging_error(self, log_conf, msg): QMessageBox.about( self, "Log error", "Error when starting log config [%s]: %s" % (log_conf.name, msg)) def _motor_data_received(self, timestamp, data, logconf): if self.isVisible(): self.actualM1.setValue(data["motor.m1"]) self.actualM2.setValue(data["motor.m2"]) self.actualM3.setValue(data["motor.m3"]) self.actualM4.setValue(data["motor.m4"]) def _baro_data_received(self, timestamp, data, logconf): if self.isVisible(): estimated_z = data[LOG_NAME_ESTIMATED_Z] self.actualHeight.setText(("%.2f" % estimated_z)) self.ai.setBaro(estimated_z, self.is_visible()) def _heighthold_input_updated(self, roll, pitch, yaw, height): if (self.isVisible() and (self.helper.inputDeviceReader.get_assisted_control() == self.helper.inputDeviceReader.ASSISTED_CONTROL_HEIGHTHOLD)): self.targetRoll.setText(("%0.2f deg" % roll)) self.targetPitch.setText(("%0.2f deg" % pitch)) self.targetYaw.setText(("%0.2f deg/s" % yaw)) self.targetHeight.setText(("%.2f m" % height)) self.ai.setHover(height, self.is_visible()) def _hover_input_updated(self, vx, vy, yaw, height): if (self.isVisible() and (self.helper.inputDeviceReader.get_assisted_control() == self.helper.inputDeviceReader.ASSISTED_CONTROL_HOVER)): self.targetRoll.setText(("%0.2f m/s" % vy)) self.targetPitch.setText(("%0.2f m/s" % vx)) self.targetYaw.setText(("%0.2f deg/s" % yaw)) self.targetHeight.setText(("%.2f m" % height)) self.ai.setHover(height, self.is_visible()) def _imu_data_received(self, timestamp, data, logconf): if self.isVisible(): self.actualRoll.setText(("%.2f" % data["stabilizer.roll"])) self.actualPitch.setText(("%.2f" % data["stabilizer.pitch"])) self.actualYaw.setText(("%.2f" % data["stabilizer.yaw"])) self.actualThrust.setText( "%.2f%%" % self.thrustToPercentage(data["stabilizer.thrust"])) self.ai.setRollPitch(-data["stabilizer.roll"], data["stabilizer.pitch"], self.is_visible()) def connected(self, linkURI): # IMU & THRUST lg = LogConfig("Stabilizer", Config().get("ui_update_period")) lg.add_variable("stabilizer.roll", "float") lg.add_variable("stabilizer.pitch", "float") lg.add_variable("stabilizer.yaw", "float") lg.add_variable("stabilizer.thrust", "uint16_t") try: self.helper.cf.log.add_config(lg) lg.data_received_cb.add_callback(self._imu_data_signal.emit) lg.error_cb.add_callback(self._log_error_signal.emit) lg.start() except KeyError as e: logger.warning(str(e)) except AttributeError as e: logger.warning(str(e)) # MOTOR lg = LogConfig("Motors", Config().get("ui_update_period")) lg.add_variable("motor.m1") lg.add_variable("motor.m2") lg.add_variable("motor.m3") lg.add_variable("motor.m4") try: self.helper.cf.log.add_config(lg) lg.data_received_cb.add_callback(self._motor_data_signal.emit) lg.error_cb.add_callback(self._log_error_signal.emit) lg.start() except KeyError as e: logger.warning(str(e)) except AttributeError as e: logger.warning(str(e)) self._populate_assisted_mode_dropdown() def _set_available_sensors(self, name, available): logger.info("[%s]: %s", name, available) available = eval(available) self.actualHeight.setEnabled(True) self.helper.inputDeviceReader.set_alt_hold_available(available) if not self.logBaro: # The sensor is available, set up the logging self.logBaro = LogConfig("Baro", 200) self.logBaro.add_variable(LOG_NAME_ESTIMATED_Z, "float") try: self.helper.cf.log.add_config(self.logBaro) self.logBaro.data_received_cb.add_callback( self._baro_data_signal.emit) self.logBaro.error_cb.add_callback(self._log_error_signal.emit) self.logBaro.start() except KeyError as e: logger.warning(str(e)) except AttributeError as e: logger.warning(str(e)) def disconnected(self, linkURI): self.ai.setRollPitch(0, 0) self.actualM1.setValue(0) self.actualM2.setValue(0) self.actualM3.setValue(0) self.actualM4.setValue(0) self.actualRoll.setText("") self.actualPitch.setText("") self.actualYaw.setText("") self.actualThrust.setText("") self.actualHeight.setText("") self.targetHeight.setText("Not Set") self.ai.setHover(0, self.is_visible()) self.targetHeight.setEnabled(False) self.actualHeight.setEnabled(False) self.clientXModeCheckbox.setEnabled(False) self.logBaro = None self.logAltHold = None self._led_ring_effect.setEnabled(False) self._led_ring_effect.clear() try: self._led_ring_effect.currentIndexChanged.disconnect( self._ring_effect_changed) except TypeError: # Signal was not connected pass self._led_ring_effect.setCurrentIndex(-1) self._led_ring_headlight.setEnabled(False) try: self._assist_mode_combo.currentIndexChanged.disconnect( self._assist_mode_changed) except TypeError: # Signal was not connected pass self._assist_mode_combo.setEnabled(False) self._assist_mode_combo.clear() def minMaxThrustChanged(self): self.helper.inputDeviceReader.min_thrust = self.minThrust.value() self.helper.inputDeviceReader.max_thrust = self.maxThrust.value() if (self.isInCrazyFlightmode is True): Config().set("min_thrust", self.minThrust.value()) Config().set("max_thrust", self.maxThrust.value()) def thrustLoweringSlewRateLimitChanged(self): self.helper.inputDeviceReader.thrust_slew_rate = ( self.thrustLoweringSlewRateLimit.value()) self.helper.inputDeviceReader.thrust_slew_limit = ( self.slewEnableLimit.value()) if (self.isInCrazyFlightmode is True): Config().set("slew_limit", self.slewEnableLimit.value()) Config().set("slew_rate", self.thrustLoweringSlewRateLimit.value()) def maxYawRateChanged(self): logger.debug("MaxYawrate changed to %d", self.maxYawRate.value()) self.helper.inputDeviceReader.max_yaw_rate = self.maxYawRate.value() if (self.isInCrazyFlightmode is True): Config().set("max_yaw", self.maxYawRate.value()) def maxAngleChanged(self): logger.debug("MaxAngle changed to %d", self.maxAngle.value()) self.helper.inputDeviceReader.max_rp_angle = self.maxAngle.value() if (self.isInCrazyFlightmode is True): Config().set("max_rp", self.maxAngle.value()) def _trim_pitch_changed(self, value): logger.debug("Pitch trim updated to [%f]" % value) self.helper.inputDeviceReader.trim_pitch = value Config().set("trim_pitch", value) def _trim_roll_changed(self, value): logger.debug("Roll trim updated to [%f]" % value) self.helper.inputDeviceReader.trim_roll = value Config().set("trim_roll", value) def calUpdateFromInput(self, rollCal, pitchCal): logger.debug("Trim changed on joystick: roll=%.2f, pitch=%.2f", rollCal, pitchCal) self.targetCalRoll.setValue(rollCal) self.targetCalPitch.setValue(pitchCal) def updateInputControl(self, roll, pitch, yaw, thrust): self.targetRoll.setText(("%0.2f deg" % roll)) self.targetPitch.setText(("%0.2f deg" % pitch)) self.targetYaw.setText(("%0.2f deg/s" % yaw)) self.targetThrust.setText( ("%0.2f %%" % self.thrustToPercentage(thrust))) self.thrustProgress.setValue(thrust) def setMotorLabelsEnabled(self, enabled): self.M1label.setEnabled(enabled) self.M2label.setEnabled(enabled) self.M3label.setEnabled(enabled) self.M4label.setEnabled(enabled) def emergencyStopStringWithText(self, text): return ("<html><head/><body><p>" "<span style='font-weight:600; color:#7b0005;'>{}</span>" "</p></body></html>".format(text)) def updateEmergencyStop(self, emergencyStop): if emergencyStop: self.setMotorLabelsEnabled(False) self.emergency_stop_label.setText( self.emergencyStopStringWithText("Kill switch active")) else: self.setMotorLabelsEnabled(True) self.emergency_stop_label.setText("") def flightmodeChange(self, item): Config().set("flightmode", str(self.flightModeCombo.itemText(item))) logger.debug("Changed flightmode to %s", self.flightModeCombo.itemText(item)) self.isInCrazyFlightmode = False if (item == 0): # Normal self.maxAngle.setValue(Config().get("normal_max_rp")) self.maxThrust.setValue(Config().get("normal_max_thrust")) self.minThrust.setValue(Config().get("normal_min_thrust")) self.slewEnableLimit.setValue(Config().get("normal_slew_limit")) self.thrustLoweringSlewRateLimit.setValue( Config().get("normal_slew_rate")) self.maxYawRate.setValue(Config().get("normal_max_yaw")) if (item == 1): # Advanced self.maxAngle.setValue(Config().get("max_rp")) self.maxThrust.setValue(Config().get("max_thrust")) self.minThrust.setValue(Config().get("min_thrust")) self.slewEnableLimit.setValue(Config().get("slew_limit")) self.thrustLoweringSlewRateLimit.setValue( Config().get("slew_rate")) self.maxYawRate.setValue(Config().get("max_yaw")) self.isInCrazyFlightmode = True if (item == 0): newState = False else: newState = True self.maxThrust.setEnabled(newState) self.maxAngle.setEnabled(newState) self.minThrust.setEnabled(newState) self.thrustLoweringSlewRateLimit.setEnabled(newState) self.slewEnableLimit.setEnabled(newState) self.maxYawRate.setEnabled(newState) def _assist_mode_changed(self, item): mode = None if (item == 0): # Altitude hold mode = JoystickReader.ASSISTED_CONTROL_ALTHOLD if (item == 1): # Position hold mode = JoystickReader.ASSISTED_CONTROL_POSHOLD if (item == 2): # Position hold mode = JoystickReader.ASSISTED_CONTROL_HEIGHTHOLD if (item == 3): # Position hold mode = JoystickReader.ASSISTED_CONTROL_HOVER self.helper.inputDeviceReader.set_assisted_control(mode) Config().set("assistedControl", mode) def _assisted_control_updated(self, enabled): if self.helper.inputDeviceReader.get_assisted_control() == \ JoystickReader.ASSISTED_CONTROL_POSHOLD: self.targetThrust.setEnabled(not enabled) self.targetRoll.setEnabled(not enabled) self.targetPitch.setEnabled(not enabled) elif ((self.helper.inputDeviceReader.get_assisted_control() == JoystickReader.ASSISTED_CONTROL_HEIGHTHOLD) or (self.helper.inputDeviceReader.get_assisted_control() == JoystickReader.ASSISTED_CONTROL_HOVER)): self.targetThrust.setEnabled(not enabled) self.targetHeight.setEnabled(enabled) else: self.helper.cf.param.set_value("flightmode.althold", str(enabled)) @pyqtSlot(bool) def changeXmode(self, checked): self.helper.cf.commander.set_client_xmode(checked) Config().set("client_side_xmode", checked) logger.info("Clientside X-mode enabled: %s", checked) def alt1_updated(self, state): if state: new_index = (self._ring_effect + 1) % (self._ledring_nbr_effects + 1) self.helper.cf.param.set_value("ring.effect", str(new_index)) def alt2_updated(self, state): self.helper.cf.param.set_value("ring.headlightEnable", str(state)) def _ring_populate_dropdown(self): try: nbr = int(self.helper.cf.param.values["ring"]["neffect"]) current = int(self.helper.cf.param.values["ring"]["effect"]) except KeyError: return # Used only in alt1_updated function self._ring_effect = current self._ledring_nbr_effects = nbr hardcoded_names = { 0: "Off", 1: "White spinner", 2: "Color spinner", 3: "Tilt effect", 4: "Brightness effect", 5: "Color spinner 2", 6: "Double spinner", 7: "Solid color effect", 8: "Factory test", 9: "Battery status", 10: "Boat lights", 11: "Alert", 12: "Gravity", 13: "LED tab", 14: "Color fader", 15: "Link quality" } for i in range(nbr + 1): name = "{}: ".format(i) if i in hardcoded_names: name += hardcoded_names[i] else: name += "N/A" self._led_ring_effect.addItem(name, i) self._led_ring_effect.currentIndexChanged.connect( self._ring_effect_changed) self._led_ring_effect.setCurrentIndex(current) if self.helper.cf.mem.ow_search(vid=0xBC, pid=0x01): self._led_ring_effect.setEnabled(True) self._led_ring_headlight.setEnabled(True) def _ring_effect_changed(self, index): self._ring_effect = index if index > -1: i = self._led_ring_effect.itemData(index) logger.info("Changed effect to {}".format(i)) if i != int(self.helper.cf.param.values["ring"]["effect"]): self.helper.cf.param.set_value("ring.effect", str(i)) def _ring_effect_updated(self, name, value): if self.helper.cf.param.is_updated: self._led_ring_effect.setCurrentIndex(int(value)) def _populate_assisted_mode_dropdown(self): self._assist_mode_combo.addItem("Altitude hold", 0) self._assist_mode_combo.addItem("Position hold", 1) self._assist_mode_combo.addItem("Height hold", 2) self._assist_mode_combo.addItem("Hover", 3) heightHoldPossible = False hoverPossible = False if self.helper.cf.mem.ow_search(vid=0xBC, pid=0x09): heightHoldPossible = True self.helper.inputDeviceReader.set_hover_max_height(1.0) if self.helper.cf.mem.ow_search(vid=0xBC, pid=0x0E): heightHoldPossible = True self.helper.inputDeviceReader.set_hover_max_height(2.0) if self.helper.cf.mem.ow_search(vid=0xBC, pid=0x0A): heightHoldPossible = True hoverPossible = True self.helper.inputDeviceReader.set_hover_max_height(1.0) if self.helper.cf.mem.ow_search(vid=0xBC, pid=0x0F): heightHoldPossible = True hoverPossible = True self.helper.inputDeviceReader.set_hover_max_height(2.0) if not heightHoldPossible: self._assist_mode_combo.model().item(2).setEnabled(False) else: self._assist_mode_combo.model().item(0).setEnabled(False) if not hoverPossible: self._assist_mode_combo.model().item(3).setEnabled(False) else: self._assist_mode_combo.model().item(0).setEnabled(False) self._assist_mode_combo.currentIndexChanged.connect( self._assist_mode_changed) self._assist_mode_combo.setEnabled(True) try: assistmodeComboIndex = Config().get("assistedControl") if assistmodeComboIndex == 3 and not hoverPossible: self._assist_mode_combo.setCurrentIndex(0) self._assist_mode_combo.currentIndexChanged.emit(0) elif assistmodeComboIndex == 0 and hoverPossible: self._assist_mode_combo.setCurrentIndex(3) self._assist_mode_combo.currentIndexChanged.emit(3) elif assistmodeComboIndex == 2 and not heightHoldPossible: self._assist_mode_combo.setCurrentIndex(0) self._assist_mode_combo.currentIndexChanged.emit(0) elif assistmodeComboIndex == 0 and heightHoldPossible: self._assist_mode_combo.setCurrentIndex(2) self._assist_mode_combo.currentIndexChanged.emit(2) else: self._assist_mode_combo.setCurrentIndex(assistmodeComboIndex) self._assist_mode_combo.currentIndexChanged.emit( assistmodeComboIndex) except KeyError: defaultOption = 0 if hoverPossible: defaultOption = 3 elif heightHoldPossible: defaultOption = 2 self._assist_mode_combo.setCurrentIndex(defaultOption) self._assist_mode_combo.currentIndexChanged.emit(defaultOption)
class FlightTab(Tab, flight_tab_class): uiSetupReadySignal = pyqtSignal() _motor_data_signal = pyqtSignal(int, object, object) _imu_data_signal = pyqtSignal(int, object, object) _althold_data_signal = pyqtSignal(int, object, object) _baro_data_signal = pyqtSignal(int, object, object) _input_updated_signal = pyqtSignal(float, float, float, float) _rp_trim_updated_signal = pyqtSignal(float, float) _emergency_stop_updated_signal = pyqtSignal(bool) _log_error_signal = pyqtSignal(object, str) #UI_DATA_UPDATE_FPS = 10 connectionFinishedSignal = pyqtSignal(str) disconnectedSignal = pyqtSignal(str) _limiting_updated = pyqtSignal(bool, bool, bool) def __init__(self, tabWidget, helper, *args): super(FlightTab, self).__init__(*args) self.setupUi(self) self.tabName = "Flight Control" self.menuName = "Flight Control" self.tabWidget = tabWidget self.helper = helper self.disconnectedSignal.connect(self.disconnected) self.connectionFinishedSignal.connect(self.connected) # Incomming signals self.helper.cf.connected.add_callback( self.connectionFinishedSignal.emit) self.helper.cf.disconnected.add_callback(self.disconnectedSignal.emit) self._input_updated_signal.connect(self.updateInputControl) self.helper.inputDeviceReader.input_updated.add_callback( self._input_updated_signal.emit) self._rp_trim_updated_signal.connect(self.calUpdateFromInput) self.helper.inputDeviceReader.rp_trim_updated.add_callback( self._rp_trim_updated_signal.emit) self._emergency_stop_updated_signal.connect(self.updateEmergencyStop) self.helper.inputDeviceReader.emergency_stop_updated.add_callback( self._emergency_stop_updated_signal.emit) self.helper.inputDeviceReader.althold_updated.add_callback( lambda enabled: self.helper.cf.param.set_value("flightmode.althold", enabled)) self._imu_data_signal.connect(self._imu_data_received) self._baro_data_signal.connect(self._baro_data_received) self._althold_data_signal.connect(self._althold_data_received) self._motor_data_signal.connect(self._motor_data_received) self._log_error_signal.connect(self._logging_error) # Connect UI signals that are in this tab self.flightModeCombo.currentIndexChanged.connect(self.flightmodeChange) self.minThrust.valueChanged.connect(self.minMaxThrustChanged) self.maxThrust.valueChanged.connect(self.minMaxThrustChanged) self.thrustLoweringSlewRateLimit.valueChanged.connect( self.thrustLoweringSlewRateLimitChanged) self.slewEnableLimit.valueChanged.connect( self.thrustLoweringSlewRateLimitChanged) self.targetCalRoll.valueChanged.connect(self._trim_roll_changed) self.targetCalPitch.valueChanged.connect(self._trim_pitch_changed) self.maxAngle.valueChanged.connect(self.maxAngleChanged) self.maxYawRate.valueChanged.connect(self.maxYawRateChanged) self.uiSetupReadySignal.connect(self.uiSetupReady) self.clientXModeCheckbox.toggled.connect(self.changeXmode) self.isInCrazyFlightmode = False self.uiSetupReady() self.clientXModeCheckbox.setChecked(Config().get("client_side_xmode")) self.crazyflieXModeCheckbox.clicked.connect( lambda enabled: self.helper.cf.param.set_value("flightmode.x", str(enabled))) self.helper.cf.param.add_update_callback( group="flightmode", name="xmode", cb=( lambda name, checked: self.crazyflieXModeCheckbox.setChecked(eval(checked)))) self.ratePidRadioButton.clicked.connect( lambda enabled: self.helper.cf.param.set_value("flightmode.ratepid", str(enabled))) self.angularPidRadioButton.clicked.connect( lambda enabled: self.helper.cf.param.set_value("flightmode.ratepid", str(not enabled))) self._led_ring_headlight.clicked.connect( lambda enabled: self.helper.cf.param.set_value("ring.headlightEnable", str(enabled))) self.helper.cf.param.add_update_callback( group="flightmode", name="ratepid", cb=(lambda name, checked: self.ratePidRadioButton.setChecked(eval(checked)))) self.helper.cf.param.add_update_callback( group="cpu", name="flash", cb=self._set_enable_client_xmode) self.helper.cf.param.add_update_callback( group="ring", name="headlightEnable", cb=(lambda name, checked: self._led_ring_headlight.setChecked(eval(checked)))) self.helper.cf.param.add_update_callback( group="flightmode", name="althold", cb=(lambda name, enabled: self.helper.inputDeviceReader.enable_alt_hold(eval(enabled)))) self._ledring_nbr_effects = 0 self.helper.cf.param.add_update_callback( group="ring", name="neffect", cb=(lambda name, value: self._set_neffect(eval(value)))) self.helper.cf.param.add_update_callback( group="imu_sensors", cb=self._set_available_sensors) self.helper.cf.param.all_updated.add_callback(self._ring_populate_dropdown) self.logBaro = None self.logAltHold = None self.ai = AttitudeIndicator() self.verticalLayout_4.addWidget(self.ai) self.splitter.setSizes([1000,1]) self.targetCalPitch.setValue(Config().get("trim_pitch")) self.targetCalRoll.setValue(Config().get("trim_roll")) self.helper.inputDeviceReader.alt1_updated.add_callback(self.alt1_updated) self.helper.inputDeviceReader.alt2_updated.add_callback(self.alt2_updated) self._tf_state = 0 self._ring_effect = 0 # Connect callbacks for input device limiting of rpöö/pitch/yaw/thust self.helper.inputDeviceReader.limiting_updated.add_callback( self._limiting_updated.emit) self._limiting_updated.connect(self._set_limiting_enabled) def _set_enable_client_xmode(self, name, value): if eval(value) <= 128: self.clientXModeCheckbox.setEnabled(True) else: self.clientXModeCheckbox.setEnabled(False) self.clientXModeCheckbox.setChecked(False) def _set_limiting_enabled(self, rp_limiting_enabled, yaw_limiting_enabled, thrust_limiting_enabled): self.maxAngle.setEnabled(rp_limiting_enabled) self.targetCalRoll.setEnabled(rp_limiting_enabled) self.targetCalPitch.setEnabled(rp_limiting_enabled) self.maxYawRate.setEnabled(yaw_limiting_enabled) self.maxThrust.setEnabled(thrust_limiting_enabled) self.minThrust.setEnabled(thrust_limiting_enabled) self.slewEnableLimit.setEnabled(thrust_limiting_enabled) self.thrustLoweringSlewRateLimit.setEnabled(thrust_limiting_enabled) def _set_neffect(self, n): self._ledring_nbr_effects = n def thrustToPercentage(self, thrust): return ((thrust / MAX_THRUST) * 100.0) def uiSetupReady(self): flightComboIndex = self.flightModeCombo.findText( Config().get("flightmode"), Qt.MatchFixedString) if (flightComboIndex < 0): self.flightModeCombo.setCurrentIndex(0) self.flightModeCombo.currentIndexChanged.emit(0) else: self.flightModeCombo.setCurrentIndex(flightComboIndex) self.flightModeCombo.currentIndexChanged.emit(flightComboIndex) def _logging_error(self, log_conf, msg): QMessageBox.about(self, "Log error", "Error when starting log config" " [%s]: %s" % (log_conf.name, msg)) def _motor_data_received(self, timestamp, data, logconf): if self.isVisible(): self.actualM1.setValue(data["motor.m1"]) self.actualM2.setValue(data["motor.m2"]) self.actualM3.setValue(data["motor.m3"]) self.actualM4.setValue(data["motor.m4"]) def _baro_data_received(self, timestamp, data, logconf): if self.isVisible(): self.actualASL.setText(("%.2f" % data["baro.aslLong"])) self.ai.setBaro(data["baro.aslLong"]) def _althold_data_received(self, timestamp, data, logconf): if self.isVisible(): target = data["altHold.target"] if target>0: if not self.targetASL.isEnabled(): self.targetASL.setEnabled(True) self.targetASL.setText(("%.2f" % target)) self.ai.setHover(target) elif self.targetASL.isEnabled(): self.targetASL.setEnabled(False) self.targetASL.setText("Not set") self.ai.setHover(0) def _imu_data_received(self, timestamp, data, logconf): if self.isVisible(): self.actualRoll.setText(("%.2f" % data["stabilizer.roll"])) self.actualPitch.setText(("%.2f" % data["stabilizer.pitch"])) self.actualYaw.setText(("%.2f" % data["stabilizer.yaw"])) self.actualThrust.setText("%.2f%%" % self.thrustToPercentage( data["stabilizer.thrust"])) self.ai.setRollPitch(-data["stabilizer.roll"], data["stabilizer.pitch"]) def connected(self, linkURI): # IMU & THRUST lg = LogConfig("Stabilizer", Config().get("ui_update_period")) lg.add_variable("stabilizer.roll", "float") lg.add_variable("stabilizer.pitch", "float") lg.add_variable("stabilizer.yaw", "float") lg.add_variable("stabilizer.thrust", "uint16_t") try: self.helper.cf.log.add_config(lg) lg.data_received_cb.add_callback(self._imu_data_signal.emit) lg.error_cb.add_callback(self._log_error_signal.emit) lg.start() except KeyError as e: logger.warning(str(e)) except AttributeError as e: logger.warning(str(e)) # MOTOR lg = LogConfig("Motors", Config().get("ui_update_period")) lg.add_variable("motor.m1") lg.add_variable("motor.m2") lg.add_variable("motor.m3") lg.add_variable("motor.m4") try: self.helper.cf.log.add_config(lg) lg.data_received_cb.add_callback(self._motor_data_signal.emit) lg.error_cb.add_callback(self._log_error_signal.emit) lg.start() except KeyError as e: logger.warning(str(e)) except AttributeError as e: logger.warning(str(e)) if self.helper.cf.mem.ow_search(vid=0xBC, pid=0x01): self._led_ring_effect.setEnabled(True) self._led_ring_headlight.setEnabled(True) def _set_available_sensors(self, name, available): logger.info("[%s]: %s", name, available) available = eval(available) if ("HMC5883L" in name): if (not available): self.actualASL.setText("N/A") self.actualASL.setEnabled(False) else: self.actualASL.setEnabled(True) self.helper.inputDeviceReader.set_alt_hold_available(available) if (not self.logBaro and not self.logAltHold): # The sensor is available, set up the logging self.logBaro = LogConfig("Baro", 200) self.logBaro.add_variable("baro.aslLong", "float") try: self.helper.cf.log.add_config(self.logBaro) self.logBaro.data_received_cb.add_callback( self._baro_data_signal.emit) self.logBaro.error_cb.add_callback( self._log_error_signal.emit) self.logBaro.start() except KeyError as e: logger.warning(str(e)) except AttributeError as e: logger.warning(str(e)) self.logAltHold = LogConfig("AltHold", 200) self.logAltHold.add_variable("altHold.target", "float") try: self.helper.cf.log.add_config(self.logAltHold) self.logAltHold.data_received_cb.add_callback( self._althold_data_signal.emit) self.logAltHold.error_cb.add_callback( self._log_error_signal.emit) self.logAltHold.start() except KeyError as e: logger.warning(str(e)) except AttributeError: logger.warning(str(e)) def disconnected(self, linkURI): self.ai.setRollPitch(0, 0) self.actualM1.setValue(0) self.actualM2.setValue(0) self.actualM3.setValue(0) self.actualM4.setValue(0) self.actualRoll.setText("") self.actualPitch.setText("") self.actualYaw.setText("") self.actualThrust.setText("") self.actualASL.setText("") self.targetASL.setText("Not Set") self.targetASL.setEnabled(False) self.actualASL.setEnabled(False) self.clientXModeCheckbox.setEnabled(False) self.logBaro = None self.logAltHold = None self._led_ring_effect.setEnabled(False) self._led_ring_headlight.setEnabled(False) def minMaxThrustChanged(self): self.helper.inputDeviceReader.min_thrust = self.minThrust.value() self.helper.inputDeviceReader.max_thrust = self.maxThrust.value() if (self.isInCrazyFlightmode == True): Config().set("min_thrust", self.minThrust.value()) Config().set("max_thrust", self.maxThrust.value()) def thrustLoweringSlewRateLimitChanged(self): self.helper.inputDeviceReader.thrust_slew_rate = self.thrustLoweringSlewRateLimit.value() self.helper.inputDeviceReader.thrust_slew_limit = self.slewEnableLimit.value() if (self.isInCrazyFlightmode == True): Config().set("slew_limit", self.slewEnableLimit.value()) Config().set("slew_rate", self.thrustLoweringSlewRateLimit.value()) def maxYawRateChanged(self): logger.debug("MaxYawrate changed to %d", self.maxYawRate.value()) self.helper.inputDeviceReader.max_yaw_rate = self.maxYawRate.value() if (self.isInCrazyFlightmode == True): Config().set("max_yaw", self.maxYawRate.value()) def maxAngleChanged(self): logger.debug("MaxAngle changed to %d", self.maxAngle.value()) self.helper.inputDeviceReader.max_rp_angle = self.maxAngle.value() if (self.isInCrazyFlightmode == True): Config().set("max_rp", self.maxAngle.value()) def _trim_pitch_changed(self, value): logger.debug("Pitch trim updated to [%f]" % value) self.helper.inputDeviceReader.trim_pitch = value Config().set("trim_pitch", value) def _trim_roll_changed(self, value): logger.debug("Roll trim updated to [%f]" % value) self.helper.inputDeviceReader.trim_roll = value Config().set("trim_roll", value) def calUpdateFromInput(self, rollCal, pitchCal): logger.debug("Trim changed on joystick: roll=%.2f, pitch=%.2f", rollCal, pitchCal) self.targetCalRoll.setValue(rollCal) self.targetCalPitch.setValue(pitchCal) def updateInputControl(self, roll, pitch, yaw, thrust): self.targetRoll.setText(("%0.2f" % roll)) self.targetPitch.setText(("%0.2f" % pitch)) self.targetYaw.setText(("%0.2f" % yaw)) self.targetThrust.setText(("%0.2f %%" % self.thrustToPercentage(thrust))) self.thrustProgress.setValue(thrust) def setMotorLabelsEnabled(self, enabled): self.M1label.setEnabled(enabled) self.M2label.setEnabled(enabled) self.M3label.setEnabled(enabled) self.M4label.setEnabled(enabled) def emergencyStopStringWithText(self, text): return ("<html><head/><body><p>" "<span style='font-weight:600; color:#7b0005;'>{}</span>" "</p></body></html>".format(text)) def updateEmergencyStop(self, emergencyStop): if emergencyStop: self.setMotorLabelsEnabled(False) self.emergency_stop_label.setText( self.emergencyStopStringWithText("Kill switch active")) else: self.setMotorLabelsEnabled(True) self.emergency_stop_label.setText("") def flightmodeChange(self, item): Config().set("flightmode", str(self.flightModeCombo.itemText(item))) logger.debug("Changed flightmode to %s", self.flightModeCombo.itemText(item)) self.isInCrazyFlightmode = False if (item == 0): # Normal self.maxAngle.setValue(Config().get("normal_max_rp")) self.maxThrust.setValue(Config().get("normal_max_thrust")) self.minThrust.setValue(Config().get("normal_min_thrust")) self.slewEnableLimit.setValue(Config().get("normal_slew_limit")) self.thrustLoweringSlewRateLimit.setValue( Config().get("normal_slew_rate")) self.maxYawRate.setValue(Config().get("normal_max_yaw")) if (item == 1): # Advanced self.maxAngle.setValue(Config().get("max_rp")) self.maxThrust.setValue(Config().get("max_thrust")) self.minThrust.setValue(Config().get("min_thrust")) self.slewEnableLimit.setValue(Config().get("slew_limit")) self.thrustLoweringSlewRateLimit.setValue( Config().get("slew_rate")) self.maxYawRate.setValue(Config().get("max_yaw")) self.isInCrazyFlightmode = True if (item == 0): newState = False else: newState = True self.maxThrust.setEnabled(newState) self.maxAngle.setEnabled(newState) self.minThrust.setEnabled(newState) self.thrustLoweringSlewRateLimit.setEnabled(newState) self.slewEnableLimit.setEnabled(newState) self.maxYawRate.setEnabled(newState) @pyqtSlot(bool) def changeXmode(self, checked): self.helper.cf.commander.set_client_xmode(checked) Config().set("client_side_xmode", checked) logger.info("Clientside X-mode enabled: %s", checked) def alt1_updated(self, state): if state: self._ring_effect += 1 if self._ring_effect > self._ledring_nbr_effects: self._ring_effect = 0 self.helper.cf.param.set_value("ring.effect", str(self._ring_effect)) def alt2_updated(self, state): self.helper.cf.param.set_value("ring.headlightEnable", str(state)) def _ring_populate_dropdown(self): try: nbr = int(self.helper.cf.param.values["ring"]["neffect"]) current = int(self.helper.cf.param.values["ring"]["effect"]) except KeyError: return hardcoded_names = {0: "Off", 1: "White spinner", 2: "Color spinner", 3: "Tilt effect", 4: "Brightness effect", 5: "Color spinner 2", 6: "Double spinner", 7: "Solid color effect", 8: "Factory test", 9: "Battery status", 10: "Boat lights", 11: "Alert", 12: "Gravity"} for i in range(nbr+1): name = "{}: ".format(i) if i in hardcoded_names: name += hardcoded_names[i] else: name += "N/A" self._led_ring_effect.addItem(name, QVariant(i)) self._led_ring_effect.setCurrentIndex(current) self._led_ring_effect.currentIndexChanged.connect(self._ring_effect_changed) self.helper.cf.param.add_update_callback(group="ring", name="effect", cb=self._ring_effect_updated) def _ring_effect_changed(self, index): i = self._led_ring_effect.itemData(index).toInt()[0] logger.info("Changed effect to {}".format(i)) if i != self.helper.cf.param.values["ring"]["effect"]: self.helper.cf.param.set_value("ring.effect", str(i)) def _ring_effect_updated(self, name, value): self._led_ring_effect.setCurrentIndex(int(value))
class FlightTab(Tab, flight_tab_class): uiSetupReadySignal = pyqtSignal() _accel_data_signal = pyqtSignal(int, object, object) _gyro_data_signal = pyqtSignal(int, object, object) _motor_data_signal = pyqtSignal(int, object, object) _imu_data_signal = pyqtSignal(int, object, object) _althold_data_signal = pyqtSignal(int, object, object) _baro_data_signal = pyqtSignal(int, object, object) _input_updated_signal = pyqtSignal(float, float, float, float) _rp_trim_updated_signal = pyqtSignal(float, float) _emergency_stop_updated_signal = pyqtSignal(bool) _log_error_signal = pyqtSignal(object, str) #UI_DATA_UPDATE_FPS = 10 connectionFinishedSignal = pyqtSignal(str) disconnectedSignal = pyqtSignal(str) def __init__(self, tabWidget, helper, *args): global D D.thrust = 0 D.pitch = 0 D.yawrate = 0 D.roll = 0 rospy.init_node("cf_flightTab") self.motor_pub = rospy.Publisher("cf_motorData", MotorData) self.stab_pub = rospy.Publisher("cf_stabData", StabData) self.acc_pub = rospy.Publisher("cf_accData", AccelData) self.gyro_pub = rospy.Publisher("cf_gyroData", GyroData) rospy.Subscriber("cf_textcmd", String, self._cmdCB) super(FlightTab, self).__init__(*args) self.setupUi(self) self.tabName = "Flight Control" self.menuName = "Flight Control" self.tabWidget = tabWidget self.helper = helper self.disconnectedSignal.connect(self.disconnected) self.connectionFinishedSignal.connect(self.connected) # Incomming signals self.helper.cf.connected.add_callback( self.connectionFinishedSignal.emit) self.helper.cf.disconnected.add_callback(self.disconnectedSignal.emit) self._input_updated_signal.connect(self.updateInputControl) self.helper.inputDeviceReader.input_updated.add_callback( self._input_updated_signal.emit) self._rp_trim_updated_signal.connect(self.calUpdateFromInput) self.helper.inputDeviceReader.rp_trim_updated.add_callback( self._rp_trim_updated_signal.emit) self._emergency_stop_updated_signal.connect(self.updateEmergencyStop) self.helper.inputDeviceReader.emergency_stop_updated.add_callback( self._emergency_stop_updated_signal.emit) self.helper.inputDeviceReader.althold_updated.add_callback( lambda enabled: self.helper.cf.param.set_value("flightmode.althold", enabled)) self._gyro_data_signal.connect(self._gyro_data_received) self._accel_data_signal.connect(self._accel_data_received) self._imu_data_signal.connect(self._imu_data_received) self._baro_data_signal.connect(self._baro_data_received) self._althold_data_signal.connect(self._althold_data_received) self._motor_data_signal.connect(self._motor_data_received) self._log_error_signal.connect(self._logging_error) # Connect UI signals that are in this tab self.flightModeCombo.currentIndexChanged.connect(self.flightmodeChange) self.minThrust.valueChanged.connect(self.minMaxThrustChanged) self.maxThrust.valueChanged.connect(self.minMaxThrustChanged) self.thrustLoweringSlewRateLimit.valueChanged.connect( self.thrustLoweringSlewRateLimitChanged) self.slewEnableLimit.valueChanged.connect( self.thrustLoweringSlewRateLimitChanged) self.targetCalRoll.valueChanged.connect(self._trim_roll_changed) self.targetCalPitch.valueChanged.connect(self._trim_pitch_changed) self.maxAngle.valueChanged.connect(self.maxAngleChanged) self.maxYawRate.valueChanged.connect(self.maxYawRateChanged) self.uiSetupReadySignal.connect(self.uiSetupReady) self.clientXModeCheckbox.toggled.connect(self.changeXmode) self.isInCrazyFlightmode = False self.uiSetupReady() self.clientXModeCheckbox.setChecked(GuiConfig().get("client_side_xmode")) self.crazyflieXModeCheckbox.clicked.connect( lambda enabled: self.helper.cf.param.set_value("flightmode.x", str(enabled))) self.helper.cf.param.add_update_callback( group="flightmode", name="xmode", cb=( lambda name, checked: self.crazyflieXModeCheckbox.setChecked(eval(checked)))) self.ratePidRadioButton.clicked.connect( lambda enabled: self.helper.cf.param.set_value("flightmode.ratepid", str(enabled))) self.angularPidRadioButton.clicked.connect( lambda enabled: self.helper.cf.param.set_value("flightmode.ratepid", str(not enabled))) self.helper.cf.param.add_update_callback( group="flightmode", name="ratepid", cb=(lambda name, checked: self.ratePidRadioButton.setChecked(eval(checked)))) self.helper.cf.param.add_update_callback( group="flightmode", name="althold", cb=(lambda name, enabled: self.helper.inputDeviceReader.setAltHold(eval(enabled)))) self.helper.cf.param.add_update_callback( group="imu_sensors", cb=self._set_available_sensors) self.logBaro = None self.logAltHold = None self.ai = AttitudeIndicator() self.verticalLayout_4.addWidget(self.ai) self.splitter.setSizes([1000,1]) self.targetCalPitch.setValue(GuiConfig().get("trim_pitch")) self.targetCalRoll.setValue(GuiConfig().get("trim_roll")) def thrustToPercentage(self, thrust): return ((thrust / MAX_THRUST) * 100.0) def uiSetupReady(self): flightComboIndex = self.flightModeCombo.findText( GuiConfig().get("flightmode"), Qt.MatchFixedString) if (flightComboIndex < 0): self.flightModeCombo.setCurrentIndex(0) self.flightModeCombo.currentIndexChanged.emit(0) else: self.flightModeCombo.setCurrentIndex(flightComboIndex) self.flightModeCombo.currentIndexChanged.emit(flightComboIndex) def _logging_error(self, log_conf, msg): QMessageBox.about(self, "Log error", "Error when starting log config" " [%s]: %s" % (log_conf.name, msg)) def _cmdCB(self, data): m = data.data print ("Recieved command: " + m) if m is 'q': self.helper.cf.commander.send_setpoint(0, 0, 0, 0) elif m.count(" ")>0: hpr,value=m.split(" ") if(hpr is "pitch" or hpr is "p"): D.pitch= float(value) if(hpr=="yawrate" or hpr is "y"): D.yawrate= float(value) if(hpr=="roll" or hpr is "r"): D.roll=float(value) if(hpr=="thrust" or hpr is "t"): D.thrust= int(value) print (D.thrust) if D.thrust <= 10000: D.thrust = 10001 elif D.thrust > 60000: D.thrust = 60000 self.helper.cf.commander.send_setpoint(D.roll, D.pitch, D.yawrate, D.thrust) def _motor_data_received(self, timestamp, data, logconf): if self.isVisible(): self.actualM1.setValue(data["motor.m1"]) self.actualM2.setValue(data["motor.m2"]) self.actualM3.setValue(data["motor.m3"]) self.actualM4.setValue(data["motor.m4"]) d = MotorData() d.m1 = data["motor.m1"] d.m2 = data["motor.m2"] d.m3 = data["motor.m3"] d.m4 = data["motor.m4"] self.motor_pub.publish(d) def _gyro_data_received(self, timestamp, data, logconf): if self.isVisible(): d = GyroData() d.x = data["gyro.x"] d.y = data["gyro.y"] d.z = data["gyro.z"] self.gyro_pub.publish(d) def _accel_data_received(self, timestamp, data, logconf): if self.isVisible(): d = AccelData() d.x = data["acc.x"] d.y = data["acc.y"] d.z = data["acc.z"] self.acc_pub.publish(d) def _baro_data_received(self, timestamp, data, logconf): if self.isVisible(): self.actualASL.setText(("%.2f" % data["baro.aslLong"])) self.ai.setBaro(data["baro.aslLong"]) def _althold_data_received(self, timestamp, data, logconf): if self.isVisible(): target = data["altHold.target"] if target>0: if not self.targetASL.isEnabled(): self.targetASL.setEnabled(True) self.targetASL.setText(("%.2f" % target)) self.ai.setHover(target) elif self.targetASL.isEnabled(): self.targetASL.setEnabled(False) self.targetASL.setText("Not set") self.ai.setHover(0) def _imu_data_received(self, timestamp, data, logconf): if self.isVisible(): self.actualRoll.setText(("%.2f" % data["stabilizer.roll"])) self.actualPitch.setText(("%.2f" % data["stabilizer.pitch"])) self.actualYaw.setText(("%.2f" % data["stabilizer.yaw"])) self.actualThrust.setText("%.2f%%" % self.thrustToPercentage( data["stabilizer.thrust"])) self.ai.setRollPitch(-data["stabilizer.roll"], data["stabilizer.pitch"]) d = StabData() d.pitch = data["stabilizer.pitch"] d.roll = data["stabilizer.roll"] d.yaw = data["stabilizer.yaw"] self.stab_pub.publish(d) def connected(self, linkURI): # IMU & THRUST lg = LogConfig("Stabalizer", GuiConfig().get("ui_update_period")) lg.add_variable("stabilizer.roll", "float") lg.add_variable("stabilizer.pitch", "float") lg.add_variable("stabilizer.yaw", "float") lg.add_variable("stabilizer.thrust", "uint16_t") self.helper.cf.log.add_config(lg) if (lg.valid): lg.data_received_cb.add_callback(self._imu_data_signal.emit) lg.error_cb.add_callback(self._log_error_signal.emit) lg.start() else: logger.warning("Could not setup logconfiguration after " "connection!") # MOTOR lg = LogConfig("Motors", GuiConfig().get("ui_update_period")) lg.add_variable("motor.m1") lg.add_variable("motor.m2") lg.add_variable("motor.m3") lg.add_variable("motor.m4") self.helper.cf.log.add_config(lg) if lg.valid: lg.data_received_cb.add_callback(self._motor_data_signal.emit) lg.error_cb.add_callback(self._log_error_signal.emit) lg.start() else: logger.warning("Could not setup logconfiguration after " "connection!") #Accel lg = LogConfig("Accelerometer", GuiConfig().get("ui_update_period")) lg.add_variable("acc.x") lg.add_variable("acc.y") lg.add_variable("acc.z") self.helper.cf.log.add_config(lg) if lg.valid: lg.data_received_cb.add_callback(self._accel_data_signal.emit) lg.error_cb.add_callback(self._log_error_signal.emit) lg.start() else: logger.warning("Could not setup logconfiguration after " "connection!") #Gyroscope lg = LogConfig("Gyroscope", GuiConfig().get("ui_update_period")) lg.add_variable("gyro.x") lg.add_variable("gyro.y") lg.add_variable("gyro.z") self.helper.cf.log.add_config(lg) if lg.valid: print ("Gyro logging started correctly") lg.data_received_cb.add_callback(self._gyro_data_signal.emit) lg.error_cb.add_callback(self._log_error_signal.emit) lg.start() else: logger.warning("Could not setup logconfiguration after " "connection!") def _set_available_sensors(self, name, available): logger.info("[%s]: %s", name, available) available = eval(available) if ("HMC5883L" in name): if (not available): self.actualASL.setText("N/A") self.actualASL.setEnabled(False) else: self.actualASL.setEnabled(True) self.helper.inputDeviceReader.setAltHoldAvailable(available) if (not self.logBaro and not self.logAltHold): # The sensor is available, set up the logging self.logBaro = LogConfig("Baro", 200) self.logBaro.add_variable("baro.aslLong", "float") self.helper.cf.log.add_config(self.logBaro) if self.logBaro.valid: self.logBaro.data_received_cb.add_callback( self._baro_data_signal.emit) self.logBaro.error_cb.add_callback( self._log_error_signal.emit) self.logBaro.start() else: logger.warning("Could not setup logconfiguration after " "connection!") self.logAltHold = LogConfig("AltHold", 200) self.logAltHold.add_variable("altHold.target", "float") self.helper.cf.log.add_config(self.logAltHold) if self.logAltHold.valid: self.logAltHold.data_received_cb.add_callback( self._althold_data_signal.emit) self.logAltHold.error_cb.add_callback( self._log_error_signal.emit) self.logAltHold.start() else: logger.warning("Could not setup logconfiguration after " "connection!") def disconnected(self, linkURI): self.ai.setRollPitch(0, 0) self.actualM1.setValue(0) self.actualM2.setValue(0) self.actualM3.setValue(0) self.actualM4.setValue(0) self.actualRoll.setText("") self.actualPitch.setText("") self.actualYaw.setText("") self.actualThrust.setText("") self.actualASL.setText("") self.targetASL.setText("Not Set") self.targetASL.setEnabled(False) self.actualASL.setEnabled(False) self.logBaro = None self.logAltHold = None def minMaxThrustChanged(self): self.helper.inputDeviceReader.set_thrust_limits( self.minThrust.value(), self.maxThrust.value()) if (self.isInCrazyFlightmode == True): GuiConfig().set("min_thrust", self.minThrust.value()) GuiConfig().set("max_thrust", self.maxThrust.value()) def thrustLoweringSlewRateLimitChanged(self): self.helper.inputDeviceReader.set_thrust_slew_limiting( self.thrustLoweringSlewRateLimit.value(), self.slewEnableLimit.value()) if (self.isInCrazyFlightmode == True): GuiConfig().set("slew_limit", self.slewEnableLimit.value()) GuiConfig().set("slew_rate", self.thrustLoweringSlewRateLimit.value()) def maxYawRateChanged(self): logger.debug("MaxYawrate changed to %d", self.maxYawRate.value()) self.helper.inputDeviceReader.set_yaw_limit(self.maxYawRate.value()) if (self.isInCrazyFlightmode == True): GuiConfig().set("max_yaw", self.maxYawRate.value()) def maxAngleChanged(self): logger.debug("MaxAngle changed to %d", self.maxAngle.value()) self.helper.inputDeviceReader.set_rp_limit(self.maxAngle.value()) if (self.isInCrazyFlightmode == True): GuiConfig().set("max_rp", self.maxAngle.value()) def _trim_pitch_changed(self, value): logger.debug("Pitch trim updated to [%f]" % value) self.helper.inputDeviceReader.set_trim_pitch(value) GuiConfig().set("trim_pitch", value) def _trim_roll_changed(self, value): logger.debug("Roll trim updated to [%f]" % value) self.helper.inputDeviceReader.set_trim_roll(value) GuiConfig().set("trim_roll", value) def calUpdateFromInput(self, rollCal, pitchCal): logger.debug("Trim changed on joystick: roll=%.2f, pitch=%.2f", rollCal, pitchCal) self.targetCalRoll.setValue(rollCal) self.targetCalPitch.setValue(pitchCal) def updateInputControl(self, roll, pitch, yaw, thrust): self.targetRoll.setText(("%0.2f" % roll)) self.targetPitch.setText(("%0.2f" % pitch)) self.targetYaw.setText(("%0.2f" % yaw)) self.targetThrust.setText(("%0.2f %%" % self.thrustToPercentage(thrust))) self.thrustProgress.setValue(thrust) def setMotorLabelsEnabled(self, enabled): self.M1label.setEnabled(enabled) self.M2label.setEnabled(enabled) self.M3label.setEnabled(enabled) self.M4label.setEnabled(enabled) def emergencyStopStringWithText(self, text): return ("<html><head/><body><p>" "<span style='font-weight:600; color:#7b0005;'>{}</span>" "</p></body></html>".format(text)) def updateEmergencyStop(self, emergencyStop): if emergencyStop: self.setMotorLabelsEnabled(False) self.emergency_stop_label.setText( self.emergencyStopStringWithText("Kill switch active")) else: self.setMotorLabelsEnabled(True) self.emergency_stop_label.setText("") def flightmodeChange(self, item): GuiConfig().set("flightmode", self.flightModeCombo.itemText(item)) logger.info("Changed flightmode to %s", self.flightModeCombo.itemText(item)) self.isInCrazyFlightmode = False if (item == 0): # Normal self.maxAngle.setValue(GuiConfig().get("normal_max_rp")) self.maxThrust.setValue(GuiConfig().get("normal_max_thrust")) self.minThrust.setValue(GuiConfig().get("normal_min_thrust")) self.slewEnableLimit.setValue(GuiConfig().get("normal_slew_limit")) self.thrustLoweringSlewRateLimit.setValue( GuiConfig().get("normal_slew_rate")) self.maxYawRate.setValue(GuiConfig().get("normal_max_yaw")) if (item == 1): # Advanced self.maxAngle.setValue(GuiConfig().get("max_rp")) self.maxThrust.setValue(GuiConfig().get("max_thrust")) self.minThrust.setValue(GuiConfig().get("min_thrust")) self.slewEnableLimit.setValue(GuiConfig().get("slew_limit")) self.thrustLoweringSlewRateLimit.setValue( GuiConfig().get("slew_rate")) self.maxYawRate.setValue(GuiConfig().get("max_yaw")) self.isInCrazyFlightmode = True if (item == 0): newState = False else: newState = True self.maxThrust.setEnabled(newState) self.maxAngle.setEnabled(newState) self.minThrust.setEnabled(newState) self.thrustLoweringSlewRateLimit.setEnabled(newState) self.slewEnableLimit.setEnabled(newState) self.maxYawRate.setEnabled(newState) @pyqtSlot(bool) def changeXmode(self, checked): self.helper.cf.commander.set_client_xmode(checked) GuiConfig().set("client_side_xmode", checked) logger.info("Clientside X-mode enabled: %s", checked)
def __init__(self, tabWidget, helper, *args): super(SwarmTab, self).__init__(*args) self.setupUi(self) self.tabName = "Swarm" self.menuName = "Swarm" self.tabWidget = tabWidget self.helper = helper print("helper:", helper) self.disconnectedSignal.connect(self.disconnected) self.connectionFinishedSignal.connect(self.connected) # Incoming signals self.helper.cf.connected.add_callback( self.connectionFinishedSignal.emit) self.helper.cf.disconnected.add_callback(self.disconnectedSignal.emit) self._input_updated_signal.connect(self.updateInputControl) self.helper.inputDeviceReader.input_updated.add_callback( self._input_updated_signal.emit) self._rp_trim_updated_signal.connect(self.calUpdateFromInput) self.helper.inputDeviceReader.rp_trim_updated.add_callback( self._rp_trim_updated_signal.emit) self._emergency_stop_updated_signal.connect(self.updateEmergencyStop) self.helper.inputDeviceReader.emergency_stop_updated.add_callback( self._emergency_stop_updated_signal.emit) self.helper.inputDeviceReader.heighthold_input_updated.add_callback( self._heighthold_input_updated_signal.emit) self._heighthold_input_updated_signal.connect( self._heighthold_input_updated) self.helper.inputDeviceReader.hover_input_updated.add_callback( self._hover_input_updated_signal.emit) self._hover_input_updated_signal.connect(self._hover_input_updated) self.helper.inputDeviceReader.assisted_control_updated.add_callback( self._assisted_control_updated_signal.emit) self._assisted_control_updated_signal.connect( self._assisted_control_updated) self._imu_data_signal.connect(self._imu_data_received) self._baro_data_signal.connect(self._baro_data_received) self._motor_data_signal.connect(self._motor_data_received) self._log_error_signal.connect(self._logging_error) # PlotWidget Stuff self._plot = PlotWidget(fps=30) # Check if we could find the PyQtImport. If not, then # set this tab as disabled self.enabled = self._plot.can_enable self._model = LogConfigModel() self.dataSelector.setModel(self._model) self.plotLayout.addWidget(self._plot) self._log_data_signal.connect(self._log_data_received) self._plotter_log_error_signal.connect(self._plotter_logging_error) if self.enabled: self._disconnected_signal.connect(self._disconnected) self.helper.cf.disconnected.add_callback( self._disconnected_signal.emit) self._connected_signal.connect(self._connected) self.helper.cf.connected.add_callback(self._connected_signal.emit) self.helper.cf.log.block_added_cb.add_callback(self._config_added) self.dataSelector.currentIndexChanged.connect( self._selection_changed) self._previous_config = None self._started_previous = False self.targetCalRoll.valueChanged.connect(self._trim_roll_changed) self.inputTypeComboBox.currentIndexChanged.connect( self.inputtypeChange) self.stepHeightCombo.valueChanged.connect(self._step_height_changed) self.frequencyCombo.valueChanged.connect(self._sine_frequency_changed) self.referenceHeightCheckbox.toggled.connect( lambda: self._use_ref_input(self.referenceHeightCheckbox.isChecked( ))) self.targetCalPitch.valueChanged.connect(self._trim_pitch_changed) self.updateGainsBtn.clicked.connect(self._controller_gain_changed) self.k1Combo.valueChanged.connect(self._k123_gain_changed) self.k2Combo.valueChanged.connect(self._k123_gain_changed) self.k3Combo.valueChanged.connect(self._k123_gain_changed) # self.maxAngle.valueChanged.connect(self.maxAngleChanged) # self.maxYawRate.valueChanged.connect(self.maxYawRateChanged) self.uiSetupReadySignal.connect(self.uiSetupReady) self.clientXModeCheckbox.toggled.connect(self.changeXmode) self.isInCrazyFlightmode = False self.uiSetupReady() self._ledring_nbr_effects = 0 self.helper.cf.param.add_update_callback( group="imu_sensors", cb=self._set_available_sensors) self.helper.cf.param.all_updated.add_callback(self._all_params_updated) self.logBaro = None self.logAltHold = None self.ai = AttitudeIndicator() self.verticalLayout_2.addWidget(self.ai) self.splitter.setSizes([1000, 1]) self.targetCalPitch.setValue(Config().get("trim_pitch")) self.targetCalRoll.setValue(Config().get("trim_roll")) self.helper.inputDeviceReader.alt1_updated.add_callback( self.alt1_updated) self.helper.inputDeviceReader.alt2_updated.add_callback( self.alt2_updated) self._tf_state = 0 self._ring_effect = 0
def __init__(self, tabWidget, helper, *args): super(FlightTab, self).__init__(*args) self.setupUi(self) self.setStyleSheet( "QToolTip { color: #ffffff; background-color: #2d2d2d; border: 1px solid #f0f0f0; border-radius: 3px; }" ) self.apitch = 0 self.aroll = 0 self.motor_power = 0 self.tabName = "Flight Control" self.menuName = "Flight Control" self.ai = AttitudeIndicator() self.compass = CompassWidget() self.tabWidget = tabWidget self.helper = helper ########## Freefall related stuff self.ffd = FFD(parent=self) # detection class self.ffr = FFR(parent=self) # recovery class # Connect the crash/free fall detections self.ffd.sigFreeFall.connect(self.freefallDetected) self.ffd.sigCrashed.connect(self.crashDetected) self.ffr.sigRecoveryTimedOut.connect(self.recoveryAborted) # continuously send acc, mean, var to AI self.ffd.sigAccMeanVar.connect(self.ai.setFFAccMeanVar) # Only set recovery on if both fall and crash detection are on as well as recovery self.checkBox_ffd.stateChanged.connect( lambda on: self.ffGuiSync(0, on)) # detect freefall on/off self.checkBox_crash.stateChanged.connect( lambda on: self.ffGuiSync(1, on)) # detect crashing on/off self.checkBox_ffr.stateChanged.connect( lambda on: self.ffGuiSync(2, on)) # recovery crashing on/off # Use barometer for recovery (only clickedable if the checkbox activates in reaction to detecting a 10DOF flie self.checkBox_ffbaro.clicked.connect(self.ffr.setUseBaro) # intercept control commands self.helper.inputDeviceReader.auto_input_updated.add_callback( self.ffr.step) self.ffr.auto_input_updated.add_callback( self.helper.cf.commander.send_setpoint) self.ffr.auto_input_updated.add_callback( self._input_updated_signal.emit) self.ffr.althold_updated.add_callback( lambda param, arg: self.helper.cf.param.set_value(param, str(arg))) # Emergency Stop self._emergency_stop_updated_signal.connect(self.ffr.setKillSwitch) #self._emergency_stop_updated_signal.connect(self.ai.setKillSwitch) # Debugging Freefall self.pushButton_ff.clicked.connect(self.ffd.sendFakeEmit) self.pushButton_crash.clicked.connect(self.ffd.sendFakeLandingEmit) self.doubleSpinBox_ff_falloff.valueChanged.connect( self.ffr.falloff.setWidth) self.doubleSpinBox_ff_max.valueChanged.connect( self.ffr.falloff.setMaxThrust) self.doubleSpinBox_ff_min.valueChanged.connect( self.ffr.falloff.setMinThrust) self.doubleSpinBox_ff_time.valueChanged.connect( self.ffr.falloff.setTime) self.pushButton_plot.clicked.connect(self.ffr.falloff.plot) self.checkBox_debug.stateChanged.connect(self.toggleFFDebug) self.checkBox_ffbaro.clicked.connect(self.toggleFFDebug) # Slow down drawing to GUi items by keeping track of last received data time self.lastImuTime = 0 self.disconnectedSignal.connect(self.disconnected) self.connectionFinishedSignal.connect(self.connected) # Incomming signals self.helper.cf.connected.add_callback( self.connectionFinishedSignal.emit) self.helper.cf.disconnected.add_callback(self.disconnectedSignal.emit) self._input_updated_signal.connect(self.updateInputControl) self.helper.inputDeviceReader.input_updated.add_callback( self._input_updated_signal.emit) self._rp_trim_updated_signal.connect(self.calUpdateFromInput) self.helper.inputDeviceReader.rp_trim_updated.add_callback( self._rp_trim_updated_signal.emit) self._emergency_stop_updated_signal.connect(self.updateEmergencyStop) self.helper.inputDeviceReader.emergency_stop_updated.add_callback( self._emergency_stop_updated_signal.emit) self._switch_mode_updated_signal.connect(self.switchMode) self.helper.inputDeviceReader.switch_mode_updated.add_callback( self._switch_mode_updated_signal.emit) self.helper.inputDeviceReader.althold_updated.add_callback( self.changeHoldmode) self._imu_data_signal.connect(self._imu_data_received) self._baro_data_signal.connect(self._baro_data_received) self._althold_data_signal.connect(self._althold_data_received) self._motor_data_signal.connect(self._motor_data_received) self._acc_data_signal.connect(self._acc_data_received) self._mag_data_signal.connect(self._mag_data_received) self._log_error_signal.connect(self._logging_error) # Connect UI signals that are in this tab self.flightModeCombo.currentIndexChanged.connect(self.flightmodeChange) self.minThrust.valueChanged.connect(self.minMaxThrustChanged) self.maxThrust.valueChanged.connect(self.minMaxThrustChanged) self.maxAltitude.valueChanged.connect(self.maxAltitudeChanged) self.thrustLoweringSlewRateLimit.valueChanged.connect( self.thrustLoweringSlewRateLimitChanged) self.slewEnableLimit.valueChanged.connect( self.thrustLoweringSlewRateLimitChanged) self.targetCalRoll.valueChanged.connect(self._trim_roll_changed) self.targetCalPitch.valueChanged.connect(self._trim_pitch_changed) self.maxAngle.valueChanged.connect(self.maxAngleChanged) self.maxYawRate.valueChanged.connect(self.maxYawRateChanged) self.uiSetupReadySignal.connect(self.uiSetupReady) self.clientHoldModeCheckbox.toggled.connect(self.changeHoldmode) self.isInCrazyFlightmode = False self.uiSetupReady() self.viscousModeSlider.valueChanged.connect(self.setViscousThrust) self.clientHoldModeCheckbox.setChecked( GuiConfig().get("client_side_holdmode")) # self.crazyflieXModeCheckbox.clicked.connect( # lambda enabled: # self.helper.cf.param.set_value("flightmode.x", str(enabled))) # self.helper.cf.param.add_update_callback( # group="flightmode", name="xmode", # cb=( lambda name, checked: # self.crazyflieXModeCheckbox.setChecked(eval(checked)))) self.ratePidRadioButton.clicked.connect( lambda enabled: self.helper.cf.param.set_value( "flightmode.ratepid", str(enabled))) self.angularPidRadioButton.clicked.connect( lambda enabled: self.helper.cf.param.set_value( "flightmode.ratepid", str(not enabled))) self.helper.cf.param.add_update_callback( group="flightmode", name="ratepid", cb=(lambda name, checked: self.ratePidRadioButton.setChecked( eval(checked)))) self.helper.cf.param.add_update_callback( group="flightmode", name="althold", cb=(lambda name, enabled: self.helper.inputDeviceReader.setAltHold( eval(enabled)))) self.helper.cf.param.add_update_callback( group="imu_sensors", cb=self._set_available_sensors) self.logBaro = None self.logAltHold = None self.horizontalLayout_5.addWidget(self.ai) self.horizontalLayout_5.addWidget(self.compass) # self.verticalLayout_4.addWidget(self.ai) self.splitter.setSizes([1000, 1]) self.targetCalPitch.setValue(GuiConfig().get("trim_pitch")) self.targetCalRoll.setValue(GuiConfig().get("trim_roll"))
class FlightTab(Tab, flight_tab_class): uiSetupReadySignal = pyqtSignal() _mode_index = 0 _motor_data_signal = pyqtSignal(int, object, object) _acc_data_signal = pyqtSignal(int, object, object) _imu_data_signal = pyqtSignal(int, object, object) _althold_data_signal = pyqtSignal(int, object, object) _baro_data_signal = pyqtSignal(int, object, object) _mag_data_signal = pyqtSignal(int, object, object) _input_updated_signal = pyqtSignal(float, float, float, float) _rp_trim_updated_signal = pyqtSignal(float, float) _emergency_stop_updated_signal = pyqtSignal(bool) _switch_mode_updated_signal = pyqtSignal() _log_error_signal = pyqtSignal(object, str) # UI_DATA_UPDATE_FPS = 10 connectionFinishedSignal = pyqtSignal(str) disconnectedSignal = pyqtSignal(str) def __init__(self, tabWidget, helper, *args): super(FlightTab, self).__init__(*args) self.setupUi(self) self.setStyleSheet( "QToolTip { color: #ffffff; background-color: #2d2d2d; border: 1px solid #f0f0f0; border-radius: 3px; }" ) self.apitch = 0 self.aroll = 0 self.motor_power = 0 self.tabName = "Flight Control" self.menuName = "Flight Control" self.ai = AttitudeIndicator() self.compass = CompassWidget() self.tabWidget = tabWidget self.helper = helper ########## Freefall related stuff self.ffd = FFD(parent=self) # detection class self.ffr = FFR(parent=self) # recovery class # Connect the crash/free fall detections self.ffd.sigFreeFall.connect(self.freefallDetected) self.ffd.sigCrashed.connect(self.crashDetected) self.ffr.sigRecoveryTimedOut.connect(self.recoveryAborted) # continuously send acc, mean, var to AI self.ffd.sigAccMeanVar.connect(self.ai.setFFAccMeanVar) # Only set recovery on if both fall and crash detection are on as well as recovery self.checkBox_ffd.stateChanged.connect( lambda on: self.ffGuiSync(0, on)) # detect freefall on/off self.checkBox_crash.stateChanged.connect( lambda on: self.ffGuiSync(1, on)) # detect crashing on/off self.checkBox_ffr.stateChanged.connect( lambda on: self.ffGuiSync(2, on)) # recovery crashing on/off # Use barometer for recovery (only clickedable if the checkbox activates in reaction to detecting a 10DOF flie self.checkBox_ffbaro.clicked.connect(self.ffr.setUseBaro) # intercept control commands self.helper.inputDeviceReader.auto_input_updated.add_callback( self.ffr.step) self.ffr.auto_input_updated.add_callback( self.helper.cf.commander.send_setpoint) self.ffr.auto_input_updated.add_callback( self._input_updated_signal.emit) self.ffr.althold_updated.add_callback( lambda param, arg: self.helper.cf.param.set_value(param, str(arg))) # Emergency Stop self._emergency_stop_updated_signal.connect(self.ffr.setKillSwitch) #self._emergency_stop_updated_signal.connect(self.ai.setKillSwitch) # Debugging Freefall self.pushButton_ff.clicked.connect(self.ffd.sendFakeEmit) self.pushButton_crash.clicked.connect(self.ffd.sendFakeLandingEmit) self.doubleSpinBox_ff_falloff.valueChanged.connect( self.ffr.falloff.setWidth) self.doubleSpinBox_ff_max.valueChanged.connect( self.ffr.falloff.setMaxThrust) self.doubleSpinBox_ff_min.valueChanged.connect( self.ffr.falloff.setMinThrust) self.doubleSpinBox_ff_time.valueChanged.connect( self.ffr.falloff.setTime) self.pushButton_plot.clicked.connect(self.ffr.falloff.plot) self.checkBox_debug.stateChanged.connect(self.toggleFFDebug) self.checkBox_ffbaro.clicked.connect(self.toggleFFDebug) # Slow down drawing to GUi items by keeping track of last received data time self.lastImuTime = 0 self.disconnectedSignal.connect(self.disconnected) self.connectionFinishedSignal.connect(self.connected) # Incomming signals self.helper.cf.connected.add_callback( self.connectionFinishedSignal.emit) self.helper.cf.disconnected.add_callback(self.disconnectedSignal.emit) self._input_updated_signal.connect(self.updateInputControl) self.helper.inputDeviceReader.input_updated.add_callback( self._input_updated_signal.emit) self._rp_trim_updated_signal.connect(self.calUpdateFromInput) self.helper.inputDeviceReader.rp_trim_updated.add_callback( self._rp_trim_updated_signal.emit) self._emergency_stop_updated_signal.connect(self.updateEmergencyStop) self.helper.inputDeviceReader.emergency_stop_updated.add_callback( self._emergency_stop_updated_signal.emit) self._switch_mode_updated_signal.connect(self.switchMode) self.helper.inputDeviceReader.switch_mode_updated.add_callback( self._switch_mode_updated_signal.emit) self.helper.inputDeviceReader.althold_updated.add_callback( self.changeHoldmode) self._imu_data_signal.connect(self._imu_data_received) self._baro_data_signal.connect(self._baro_data_received) self._althold_data_signal.connect(self._althold_data_received) self._motor_data_signal.connect(self._motor_data_received) self._acc_data_signal.connect(self._acc_data_received) self._mag_data_signal.connect(self._mag_data_received) self._log_error_signal.connect(self._logging_error) # Connect UI signals that are in this tab self.flightModeCombo.currentIndexChanged.connect(self.flightmodeChange) self.minThrust.valueChanged.connect(self.minMaxThrustChanged) self.maxThrust.valueChanged.connect(self.minMaxThrustChanged) self.maxAltitude.valueChanged.connect(self.maxAltitudeChanged) self.thrustLoweringSlewRateLimit.valueChanged.connect( self.thrustLoweringSlewRateLimitChanged) self.slewEnableLimit.valueChanged.connect( self.thrustLoweringSlewRateLimitChanged) self.targetCalRoll.valueChanged.connect(self._trim_roll_changed) self.targetCalPitch.valueChanged.connect(self._trim_pitch_changed) self.maxAngle.valueChanged.connect(self.maxAngleChanged) self.maxYawRate.valueChanged.connect(self.maxYawRateChanged) self.uiSetupReadySignal.connect(self.uiSetupReady) self.clientHoldModeCheckbox.toggled.connect(self.changeHoldmode) self.isInCrazyFlightmode = False self.uiSetupReady() self.viscousModeSlider.valueChanged.connect(self.setViscousThrust) self.clientHoldModeCheckbox.setChecked( GuiConfig().get("client_side_holdmode")) # self.crazyflieXModeCheckbox.clicked.connect( # lambda enabled: # self.helper.cf.param.set_value("flightmode.x", str(enabled))) # self.helper.cf.param.add_update_callback( # group="flightmode", name="xmode", # cb=( lambda name, checked: # self.crazyflieXModeCheckbox.setChecked(eval(checked)))) self.ratePidRadioButton.clicked.connect( lambda enabled: self.helper.cf.param.set_value( "flightmode.ratepid", str(enabled))) self.angularPidRadioButton.clicked.connect( lambda enabled: self.helper.cf.param.set_value( "flightmode.ratepid", str(not enabled))) self.helper.cf.param.add_update_callback( group="flightmode", name="ratepid", cb=(lambda name, checked: self.ratePidRadioButton.setChecked( eval(checked)))) self.helper.cf.param.add_update_callback( group="flightmode", name="althold", cb=(lambda name, enabled: self.helper.inputDeviceReader.setAltHold( eval(enabled)))) self.helper.cf.param.add_update_callback( group="imu_sensors", cb=self._set_available_sensors) self.logBaro = None self.logAltHold = None self.horizontalLayout_5.addWidget(self.ai) self.horizontalLayout_5.addWidget(self.compass) # self.verticalLayout_4.addWidget(self.ai) self.splitter.setSizes([1000, 1]) self.targetCalPitch.setValue(GuiConfig().get("trim_pitch")) self.targetCalRoll.setValue(GuiConfig().get("trim_roll")) def setViscousThrust(self, thrust): self.helper.inputDeviceReader.setViscousModeThrust(thrust) point = QtGui.QCursor.pos() QtGui.QToolTip.showText( QtCore.QPoint(point.x(), self.viscousModeSlider.pos().y() * 2 - 12), QtCore.QString.number(thrust) + "%") @pyqtSlot(int) def toggleFFDebug(self, ignored=None): if self.checkBox_debug.isChecked(): self.pushButton_ff.show() self.pushButton_crash.show() if self.checkBox_ffbaro.isEnabled( ) and self.checkBox_ffbaro.isChecked(): self.pushButton_plot.hide() self.doubleSpinBox_ff_falloff.hide() self.doubleSpinBox_ff_max.hide() self.doubleSpinBox_ff_min.hide() self.doubleSpinBox_ff_time.hide() self.label_ff4.hide() self.label_ff1.hide() self.label_ff2.hide() self.label_ff3.hide() else: self.pushButton_plot.show() self.doubleSpinBox_ff_falloff.show() self.doubleSpinBox_ff_max.show() self.doubleSpinBox_ff_min.show() self.doubleSpinBox_ff_time.show() self.label_ff4.show() self.label_ff1.show() self.label_ff2.show() self.label_ff3.show() else: self.pushButton_ff.hide() self.pushButton_crash.hide() self.pushButton_plot.hide() self.doubleSpinBox_ff_falloff.hide() self.doubleSpinBox_ff_max.hide() self.doubleSpinBox_ff_min.hide() self.doubleSpinBox_ff_time.hide() self.label_ff4.hide() self.label_ff1.hide() self.label_ff2.hide() self.label_ff3.hide() @pyqtSlot() def freefallDetected(self): self.ai.setFreefall() if self.checkBox_ffr.isChecked() and self.checkBox_ffr.isEnabled(): self.ffr.startRecovery() self.ai.setRecovery(True) self.helper.inputDeviceReader.setAuto(True) self.checkBox_ffr.setChecked(False) # self.emergency_stop_label.setText("Recovering Freefall") # self.checkBox_ffr.setEnabled(False) @pyqtSlot(float) def crashDetected(self, badness): self.ai.setRecovery(False, 'Landed / Crashed') self.ai.setCrash(badness) self.helper.inputDeviceReader.setAuto(False) self.ffr.setLanded() # self.emergency_stop_label.setText("") self.checkBox_ffr.setChecked(True) @pyqtSlot() def recoveryAborted(self): self.ai.setRecovery(False, 'Recovery Aborted / Timed out') self.helper.inputDeviceReader.setAuto(False) # self.emergency_stop_label.setText("") # self.checkBox_ffr.setEnabled(True) pass def ffGuiSync(self, id, on): """ Keeps freefall gui elements in sync""" if id == 0: # freefall detection click self.ffd.setEnabled(on) # detect freefall on/off elif id == 1: # landing detection click self.ffd.setEnabledLanding(on) # detect crashing on/off # elif id == 2: # recovery detection click # Only allow recivery checkbox to be turned on if crash/freefall detection is active self.checkBox_ffr.setEnabled(self.checkBox_ffd.isChecked() and self.checkBox_crash.isChecked()) # Only allow recovery class to be turned on if all boxes are checked # self.ffr.setEnabled(on=self.checkBox_ffd.isChecked() and self.checkBox_crash.isChecked() and self.checkBox_ffr.isChecked() and self.checkBox_ffr.isEnabled()) def makeSpace(self): # I wish I knew how to make the ai QWidget fullscreen.... s = QtGui.QSplitter() if self.splitter_2.widget(0).isHidden(): self.splitter_2.widget(0).show() self.splitter.widget(1).show() else: self.splitter_2.widget(0).hide() self.splitter.widget(1).hide() def _acc_data_received(self, timestamp, data, logconf): self.ffd.readAcc(data["acc.zw"]) self.helper.cf.commander.setActualGravity(data) def updateCamList(self): """Repopulate the combobox with available camera devices and select the last one (=usually the camera we need)""" # Remove all self.comboBox_camera.clear() # Query available devices devices = self.cam.getDevices() for i, device in enumerate(devices): logger.debug("Camera device [%d]: %s", i, device) self.comboBox_camera.addItem(device) # enable/disable the on/off button and dropdown self.checkBox_camera.setEnabled(len(devices) > 0) self.comboBox_camera.setEnabled(len(devices) > 0) if len(devices) == 0: self.comboBox_camera.addItem("None Detected") # Select last one (eg the one we just plugged in) self.comboBox_camera.setCurrentIndex(max(0, len(devices) - 1)) def thrustToPercentage(self, thrust): return ((thrust / MAX_THRUST) * 100.0) def uiSetupReady(self): flightComboIndex = self.flightModeCombo.findText( GuiConfig().get("flightmode"), Qt.MatchFixedString) if (flightComboIndex < 0): self.flightModeCombo.setCurrentIndex(0) self.flightModeCombo.currentIndexChanged.emit(0) else: self.flightModeCombo.setCurrentIndex(flightComboIndex) self.flightModeCombo.currentIndexChanged.emit(flightComboIndex) def _logging_error(self, log_conf, msg): QMessageBox.about( self, "Log error", "Error when starting log config" " [%s]: %s" % (log_conf.name, msg)) def _motor_data_received(self, timestamp, data, logconf): self.motor_power = data["motor.m1"] + data["motor.m2"] + data[ "motor.m3"] + data["motor.m4"] if self.isVisible(): self.actualM1.setValue(data["motor.m1"]) self.actualM2.setValue(data["motor.m2"]) self.actualM3.setValue(data["motor.m3"]) self.actualM4.setValue(data["motor.m4"]) def _baro_data_received(self, timestamp, data, logconf): self.helper.inputDeviceReader.setCurrentAltitude(data["baro.aslLong"]) if self.isVisible(): self.actualASL.setText(("%.2f" % data["baro.aslLong"])) self.ai.setBaro(data["baro.aslLong"]) def _althold_data_received(self, timestamp, data, logconf): if self.isVisible(): target = data["altHold.target"] if target > 0: if not self.targetASL.isEnabled(): self.targetASL.setEnabled(True) self.targetASL.setText(("%.2f" % target)) self.ai.setHover(target) elif self.targetASL.isEnabled(): self.targetASL.setEnabled(False) self.targetASL.setText("Not set") self.ai.setHover(0) def _imu_data_received(self, timestamp, data, logconf): self.aroll = data["stabilizer.roll"] self.apitch = data["stabilizer.pitch"] if self.isVisible(): self.actualRoll.setText(("%.2f" % data["stabilizer.roll"])) self.actualPitch.setText(("%.2f" % data["stabilizer.pitch"])) self.actualYaw.setText(("%.2f" % data["stabilizer.yaw"])) self.actualThrust.setText( "%.2f%%" % self.thrustToPercentage(data["stabilizer.thrust"])) self.ai.setRollPitch(-data["stabilizer.roll"], data["stabilizer.pitch"]) self.compass.setAngle(-data["stabilizer.yaw"]) # self.helper.cf.commander.setActualPoint(data) def _mag_data_received(self, timestamp, data, logconf): # hard and soft correction values generated by Processing Magnetometer_calibration script + calibrate_hardsoft.py magn_ellipsoid_center = [1341.66, -537.690, 41.1584] magn_ellipsoid_transform = [[0.934687, 0.0222809, 0.0151145], [0.0222809, 0.919365, -0.00622367], [0.0151145, -0.00622367, 0.996487]] # values generated by calibrate_powered.py qx = [ 0.067946222436498283, -0.25034004667098259, 8.3336994198409666, -0.17762637163222378 ] qy = [ -0.13945102271766135, 2.9074808469097495, 1.6764850422889934, 0.19244505046927501 ] qz = [ 0.018800599305554239, -0.79590273035713055, -3.1033531112103478, 0.13550993988096199 ] # matrix by vector multiplication def mv(a, b): out = [0, 0, 0] for x in range(0, 3): out[x] = a[x][0] * b[0] + a[x][1] * b[1] + a[x][2] * b[2] return out # calculate adjustments related to how much power is sent to the motors def adj(qs, power): p = float(power) / float(40000) # 10k * 4 motors return qs[0] * p**3 + qs[1] * p**2 + qs[2] * p + qs[3] x, y, z = data['mag.x'], data['mag.y'], data['mag.z'] x = x - magn_ellipsoid_center[0] y = y - magn_ellipsoid_center[1] z = z - magn_ellipsoid_center[2] x, y, z = mv(magn_ellipsoid_transform, [x, y, z]) x = x + adj(qx, self.motor_power) y = y + adj(qy, self.motor_power) z = z + adj(qz, self.motor_power) # correct magnetometer orientation relative to the CF orientation x, y, z = y, x, z * -1 # calculate tilt-compensated heading angle cosRoll = cos(math.radians(self.aroll)) sinRoll = sin(math.radians(self.aroll)) cosPitch = cos(math.radians(self.apitch)) sinPitch = sin(math.radians(self.apitch)) Xh = x * cosPitch + z * sinPitch Yh = x * sinRoll * sinPitch + y * cosRoll - z * sinRoll * cosPitch heading = math.atan2(Yh, Xh) d_heading = math.degrees( heading) * -1 # for some reason getting inveted sign here # update compass widget #self.compass.setAngle(d_heading) # lock heading to 0 degrees north if d_heading > 0: yaw_trim = -20 else: yaw_trim = 20 self.helper.inputDeviceReader.update_trim_yaw_signal(yaw_trim) def connected(self, linkURI): # IMU & THRUST lg = LogConfig("Stabalizer", GuiConfig().get("ui_update_period")) lg.add_variable("stabilizer.roll", "float") lg.add_variable("stabilizer.pitch", "float") lg.add_variable("stabilizer.yaw", "float") lg.add_variable("stabilizer.thrust", "uint16_t") lg.add_variable("acc.x", "float") lg.add_variable("acc.y", "float") lg.add_variable("acc.z", "float") self.helper.cf.log.add_config(lg) if (lg.valid): lg.data_received_cb.add_callback(self._imu_data_signal.emit) lg.error_cb.add_callback(self._log_error_signal.emit) lg.start() else: logger.warning("Could not setup logconfiguration after " "connection!") # MOTOR lg = LogConfig("Motors", GuiConfig().get("ui_update_period")) lg.add_variable("motor.m1") lg.add_variable("motor.m2") lg.add_variable("motor.m3") lg.add_variable("motor.m4") self.helper.cf.log.add_config(lg) if lg.valid: lg.data_received_cb.add_callback(self._motor_data_signal.emit) lg.error_cb.add_callback(self._log_error_signal.emit) lg.start() else: logger.warning("Could not setup logconfiguration after " "connection!") # Acc for freefall lg = LogConfig( "Acc", 10) # Yes we need this at 100hz for freefall detection!! lg.add_variable("acc.zw", "float") self.helper.cf.log.add_config(lg) if lg.valid: lg.data_received_cb.add_callback(self._acc_data_signal.emit) lg.error_cb.add_callback(self._log_error_signal.emit) lg.start() else: logger.warning( "Could not setup logconfiguration after connection [ACC]!") lg = LogConfig("Magnetometer", 100) lg.add_variable("mag.x", "int16_t") lg.add_variable("mag.y", "int16_t") lg.add_variable("mag.z", "int16_t") self.helper.cf.log.add_config(lg) if lg.valid: lg.data_received_cb.add_callback(self._mag_data_signal.emit) lg.error_cb.add_callback(self._log_error_signal.emit) lg.start() else: logger.warning( "Could not setup logconfiguration after connection!") def _set_available_sensors(self, name, available): logger.info("[%s]: %s", name, available) available = eval(available) if ("HMC5883L" in name): if (not available): self.maxAltitudeLabel.setEnabled(False) self.maxAltitude.setEnabled(False) self.actualASL.setText("N/A") self.actualASL.setEnabled(False) self.checkBox_ffbaro.setEnabled(False) self.checkBox_ffbaro.setChecked(False) else: self.actualASL.setEnabled(True) self.checkBox_ffbaro.setEnabled(True) self.helper.inputDeviceReader.setAltHoldAvailable(available) if (not self.logBaro and not self.logAltHold): # The sensor is available, set up the logging self.logBaro = LogConfig("Baro", 200) self.logBaro.add_variable("baro.aslLong", "float") self.helper.cf.log.add_config(self.logBaro) if self.logBaro.valid: self.logBaro.data_received_cb.add_callback( self._baro_data_signal.emit) self.logBaro.error_cb.add_callback( self._log_error_signal.emit) self.logBaro.start() else: logger.warning( "Could not setup logconfiguration after " "connection!") self.logAltHold = LogConfig("AltHold", 200) self.logAltHold.add_variable("altHold.target", "float") self.helper.cf.log.add_config(self.logAltHold) if self.logAltHold.valid: self.logAltHold.data_received_cb.add_callback( self._althold_data_signal.emit) self.logAltHold.error_cb.add_callback( self._log_error_signal.emit) self.logAltHold.start() else: logger.warning( "Could not setup logconfiguration after " "connection!") def disconnected(self, linkURI): self.ai.setRollPitch(0, 0) self.actualM1.setValue(0) self.actualM2.setValue(0) self.actualM3.setValue(0) self.actualM4.setValue(0) self.actualRoll.setText("") self.actualPitch.setText("") self.actualYaw.setText("") self.actualThrust.setText("") self.actualASL.setText("") self.targetASL.setText("Not Set") self.targetASL.setEnabled(False) self.actualASL.setEnabled(False) self.logBaro = None self.logAltHold = None def minMaxThrustChanged(self): self.helper.inputDeviceReader.set_thrust_limits( self.minThrust.value(), self.maxThrust.value()) if (self.isInCrazyFlightmode == True): GuiConfig().set("min_thrust", self.minThrust.value()) GuiConfig().set("max_thrust", self.maxThrust.value()) def maxAltitudeChanged(self): self.helper.inputDeviceReader.setMaxAltitude(self.maxAltitude.value()) def thrustLoweringSlewRateLimitChanged(self): self.helper.inputDeviceReader.set_thrust_slew_limiting( self.thrustLoweringSlewRateLimit.value(), self.slewEnableLimit.value()) if (self.isInCrazyFlightmode == True): GuiConfig().set("slew_limit", self.slewEnableLimit.value()) GuiConfig().set("slew_rate", self.thrustLoweringSlewRateLimit.value()) def maxYawRateChanged(self): logger.debug("MaxYawrate changed to %d", self.maxYawRate.value()) self.helper.inputDeviceReader.set_yaw_limit(self.maxYawRate.value()) if (self.isInCrazyFlightmode == True): GuiConfig().set("max_yaw", self.maxYawRate.value()) def maxAngleChanged(self): logger.debug("MaxAngle changed to %d", self.maxAngle.value()) self.helper.inputDeviceReader.set_rp_limit(self.maxAngle.value()) if (self.isInCrazyFlightmode == True): GuiConfig().set("max_rp", self.maxAngle.value()) def _trim_pitch_changed(self, value): logger.debug("Pitch trim updated to [%f]" % value) self.helper.inputDeviceReader.set_trim_pitch(value) GuiConfig().set("trim_pitch", value) def _trim_roll_changed(self, value): logger.debug("Roll trim updated to [%f]" % value) self.helper.inputDeviceReader.set_trim_roll(value) GuiConfig().set("trim_roll", value) def calUpdateFromInput(self, rollCal, pitchCal): logger.debug("Trim changed on joystick: roll=%.2f, pitch=%.2f", rollCal, pitchCal) self.targetCalRoll.setValue(rollCal) self.targetCalPitch.setValue(pitchCal) def updateInputControl(self, roll, pitch, yaw, thrust): self.targetRoll.setText(("%0.2f" % roll)) self.targetPitch.setText(("%0.2f" % pitch)) self.targetYaw.setText(("%0.2f" % yaw)) self.targetThrust.setText( ("%0.2f %%" % self.thrustToPercentage(thrust))) self.thrustProgress.setValue(thrust) def setMotorLabelsEnabled(self, enabled): self.M1label.setEnabled(enabled) self.M2label.setEnabled(enabled) self.M3label.setEnabled(enabled) self.M4label.setEnabled(enabled) def emergencyStopStringWithText(self, text): return ("<html><head/><body><p>" "<span style='font-weight:600; color:#7b0005;'>{}</span>" "</p></body></html>".format(text)) def updateEmergencyStop(self, emergencyStop): if emergencyStop: self.setMotorLabelsEnabled(False) self.emergency_stop_label.setEnabled(True) self.emergency_stop_label.setText( self.emergencyStopStringWithText("Kill Switch Active")) self.ai.setKillSwitch(True) else: self.setMotorLabelsEnabled(True) self.emergency_stop_label.setText("Kill Swith") self.emergency_stop_label.setEnabled(False) self.ai.setKillSwitch(False) def flightmodeChange(self, item): GuiConfig().set("flightmode", self.flightModeCombo.itemText(item)) logger.info("Changed flightmode to %s", self.flightModeCombo.itemText(item)) self.isInCrazyFlightmode = False if (item == 0): # Normal self.maxAngle.setValue(GuiConfig().get("normal_max_rp")) self.maxThrust.setValue(GuiConfig().get("normal_max_thrust")) self.minThrust.setValue(GuiConfig().get("normal_min_thrust")) self.slewEnableLimit.setValue(GuiConfig().get("normal_slew_limit")) self.thrustLoweringSlewRateLimit.setValue( GuiConfig().get("normal_slew_rate")) self.maxYawRate.setValue(GuiConfig().get("normal_max_yaw")) if (item == 1): # Advanced self.maxAngle.setValue(GuiConfig().get("max_rp")) self.maxThrust.setValue(GuiConfig().get("max_thrust")) self.minThrust.setValue(GuiConfig().get("min_thrust")) self.slewEnableLimit.setValue(GuiConfig().get("slew_limit")) self.thrustLoweringSlewRateLimit.setValue( GuiConfig().get("slew_rate")) self.maxYawRate.setValue(GuiConfig().get("max_yaw")) self.isInCrazyFlightmode = True if (item == 0): newState = False else: newState = True self.maxThrust.setEnabled(newState) self.maxAngle.setEnabled(newState) self.minThrust.setEnabled(newState) self.thrustLoweringSlewRateLimit.setEnabled(newState) self.slewEnableLimit.setEnabled(newState) self.maxYawRate.setEnabled(newState) @pyqtSlot(bool) def changeCareFreemode(self, checked): # self.helper.cf.commander.set_client_carefreemode(checked) if checked: self.clientCareFreeModeRadio.setChecked(checked) self.helper.cf.param.set_value("FlightMode.flightmode", "0") # self.helper.cf.commander.set_client_positionmode(False) # self.helper.cf.commander.set_client_xmode(False) elif not checked and self._mode_index == 1: self.clientCareFreeModeRadio.setChecked(False) self.clientNormalModeRadio.setChecked(True) self.helper.cf.param.set_value("FlightMode.flightmode", "1") logger.info("CareFree-mode enabled: %s", checked) @pyqtSlot(bool) def changeXmode(self, checked): self.clientXModeRadio.setChecked(checked) # self.helper.cf.commander.set_client_xmode(checked) if checked: self.helper.cf.param.set_value("FlightMode.flightmode", "2") # self.helper.cf.commander.set_client_carefreemode(False) # self.helper.cf.commander.set_client_positionmode(False) logger.info("X-mode enabled: %s", checked) @pyqtSlot(bool) def changePositionmode(self, checked): self.clientPositionModeRadio.setChecked(checked) # self.helper.cf.commander.set_client_positionmode(checked) if checked: self.helper.cf.param.set_value("FlightMode.flightmode", "3") # self.helper.cf.commander.set_client_carefreemode(False) # self.helper.cf.commander.set_client_xmode(False) logger.info("Position-mode enabled: %s", checked) @pyqtSlot(bool) def changeHeadingmode(self, checked): self.clientHeadingModeRadio.setChecked(checked) # self.helper.cf.commander.set_client_positionmode(checked) if checked: self.helper.cf.param.set_value("FlightMode.flightmode", "4") # self.helper.cf.commander.set_client_carefreemode(False) # self.helper.cf.commander.set_client_xmode(False) logger.info("Heading-mode enabled: %s", checked) @pyqtSlot(bool) def changeHoldmode(self, checked): self.clientHoldModeCheckbox.setChecked(checked) self.helper.cf.param.set_value("flightmode.althold", str(checked)) # self.helper.cf.commander.set_client_holdmode(checked) GuiConfig().set("client_side_holdmode", checked) logger.info("Hold-mode enabled: %s", checked) def switchMode(self): if self._mode_index == 4: self._mode_index = 0 else: self._mode_index += 1 if self._mode_index == 0: self.changeCareFreemode(True) self.changeXmode(False) self.changePositionmode(False) self.changeHeadingmode(False) elif self._mode_index == 1: self.changeCareFreemode(False) self.changeXmode(False) self.changePositionmode(False) self.changeHeadingmode(False) elif self._mode_index == 2: self.changeCareFreemode(False) self.changeXmode(True) self.changePositionmode(False) self.changeHeadingmode(False) elif self._mode_index == 3: self.changeCareFreemode(False) self.changeXmode(False) self.changePositionmode(True) self.changeHeadingmode(False) elif self._mode_index == 4: self.changeCareFreemode(False) self.changeXmode(False) self.changePositionmode(False) self.changeHeadingmode(True) logger.info("Mode switched to index: %d", self._mode_index)
class FlightTab(Tab, flight_tab_class): uiSetupReadySignal = pyqtSignal() _motor_data_signal = pyqtSignal(object) _imu_data_signal = pyqtSignal(object) _altimeter_data_signal = pyqtSignal(object) _mag_data_signal = pyqtSignal(object) UI_DATA_UPDATE_FPS = 10 connectionFinishedSignal = pyqtSignal(str) disconnectedSignal = pyqtSignal(str) sendControlSetpointSignal = pyqtSignal(float, float, float, int) def __init__(self, tabWidget, helper, *args): super(FlightTab, self).__init__(*args) self.setupUi(self) self.tabName = "Flight Control" self.menuName = "Flight Control" self.tabWidget = tabWidget self.helper = helper self.disconnectedSignal.connect(self.disconnected) self.connectionFinishedSignal.connect(self.connected) # Incomming signals self.helper.cf.connectSetupFinished.add_callback(self.connectionFinishedSignal.emit) self.helper.cf.disconnected.add_callback(self.disconnectedSignal.emit) self.helper.inputDeviceReader.inputUpdateSignal.connect(self.updateInputControl) self.helper.inputDeviceReader.calUpdateSignal.connect(self.calUpdateFromInput) self._imu_data_signal.connect(self._imu_data_received) self._motor_data_signal.connect(self._motor_data_received) self._altimeter_data_signal.connect(self._altimeter_data_received) self._mag_data_signal.connect(self._mag_data_received) # Connect UI signals that are in this tab self.flightModeCombo.currentIndexChanged.connect(self.flightmodeChange) self.minThrust.valueChanged.connect(self.minMaxThrustChanged) self.maxThrust.valueChanged.connect(self.minMaxThrustChanged) self.thrustLoweringSlewRateLimit.valueChanged.connect(self.thrustLoweringSlewRateLimitChanged) self.slewEnableLimit.valueChanged.connect(self.thrustLoweringSlewRateLimitChanged) self.targetCalRoll.valueChanged.connect(self._trim_roll_changed) self.targetCalPitch.valueChanged.connect(self._trim_pitch_changed) self.maxAngle.valueChanged.connect(self.maxAngleChanged) self.maxYawRate.valueChanged.connect(self.maxYawRateChanged) self.uiSetupReadySignal.connect(self.uiSetupReady) self.clientXModeCheckbox.toggled.connect(self.changeXmode) self.isInCrazyFlightmode = False self.uiSetupReady() self.clientXModeCheckbox.setChecked(Config().get("client_side_xmode")) self.crazyflieXModeCheckbox.clicked.connect( lambda enabled: self.helper.cf.param.set_value("flightctrl.xmode", str(enabled))) self.helper.cf.param.add_update_callback("flightctrl.xmode", lambda name, checked: self.crazyflieXModeCheckbox.setChecked(eval(checked))) self.ratePidRadioButton.clicked.connect( lambda enabled: self.helper.cf.param.set_value("flightctrl.ratepid", str(enabled))) self.angularPidRadioButton.clicked.connect( lambda enabled: self.helper.cf.param.set_value("flightctrl.ratepid", str(not enabled))) self.helper.cf.param.add_update_callback("flightctrl.ratepid", lambda name, checked: self.ratePidRadioButton.setChecked(eval(checked))) self.ai = AttitudeIndicator() self.gridLayout.addWidget(self.ai, 0, 1) self.compass = Compass() self.gridLayout.addWidget(self.compass, 0, 2) self.targetCalPitch.setValue(Config().get("trim_pitch")) self.targetCalRoll.setValue(Config().get("trim_roll")) self.apitch = 0 self.aroll = 0 self.motor_power = 0 def thrustToPercentage(self, thrust): return ((thrust/MAX_THRUST)*100.0) def percentageToThrust(self, percentage): return int(MAX_THRUST*(percentage/100.0)) def uiSetupReady(self): flightComboIndex = self.flightModeCombo.findText(Config().get("flightmode"), Qt.MatchFixedString) if (flightComboIndex < 0): self.flightModeCombo.setCurrentIndex(0) self.flightModeCombo.currentIndexChanged.emit(0) else: self.flightModeCombo.setCurrentIndex(flightComboIndex) self.flightModeCombo.currentIndexChanged.emit(flightComboIndex) def loggingError(self): logger.warning("Callback of error in LogEntry :(") def _motor_data_received(self, data): self.actualM1.setValue(data["motor.m1"]) self.actualM2.setValue(data["motor.m2"]) self.actualM3.setValue(data["motor.m3"]) self.actualM4.setValue(data["motor.m4"]) self.motor_power = data["motor.m1"] + data["motor.m2"] + data["motor.m3"] + data["motor.m4"] def _imu_data_received(self, data): self.aroll = data["stabilizer.roll"] self.apitch = data["stabilizer.pitch"] self.actualRoll.setText(("%.2f" % data["stabilizer.roll"])); self.actualPitch.setText(("%.2f" % data["stabilizer.pitch"])); self.actualYaw.setText(("%.2f" % data["stabilizer.yaw"])); self.actualThrust.setText("%.2f%%" % self.thrustToPercentage(data["stabilizer.thrust"])) self.ai.setRollPitch(-data["stabilizer.roll"], data["stabilizer.pitch"]) def _altimeter_data_received(self, data): pass def _mag_data_received(self, data): # hard and soft correction values generated by Processing Magnetometer_calibration script + calibrate_hardsoft.py magn_ellipsoid_center = [1341.66, -537.690, 41.1584] magn_ellipsoid_transform = [[0.934687, 0.0222809, 0.0151145], [0.0222809, 0.919365, -0.00622367], [0.0151145, -0.00622367, 0.996487]] # values generated by calibrate_powered.py qx = [0.067946222436498283, -0.25034004667098259, 8.3336994198409666, -0.17762637163222378] qy = [-0.13945102271766135, 2.9074808469097495, 1.6764850422889934, 0.19244505046927501] qz = [0.018800599305554239, -0.79590273035713055, -3.1033531112103478, 0.13550993988096199] # matrix by vector multiplication def mv(a, b): out = [0,0,0] for x in range(0, 3): out[x] = a[x][0] * b[0] + a[x][1] * b[1] + a[x][2] * b[2]; return out # calculate adjustments related to how much power is sent to the motors def adj(qs, power): p = float(power) / float(40000) # 10k * 4 motors return qs[0]*p**3+qs[1]*p**2+qs[2]*p+qs[3] x, y, z = data['mag.x'], data['mag.y'], data['mag.z'] x = x - magn_ellipsoid_center[0] y = y - magn_ellipsoid_center[1] z = z - magn_ellipsoid_center[2] x, y, z = mv(magn_ellipsoid_transform, [x, y, z]) x = x + adj(qx, self.motor_power) y = y + adj(qy, self.motor_power) z = z + adj(qz, self.motor_power) # correct magnetometer orientation relative to the CF orientation x, y, z = y, x, z * -1 # calculate tilt-compensated heading angle cosRoll = cos(math.radians(self.aroll)) sinRoll = sin(math.radians(self.aroll)) cosPitch = cos(math.radians(self.apitch)) sinPitch = sin(math.radians(self.apitch)) Xh = x * cosPitch + z * sinPitch Yh = x * sinRoll * sinPitch + y * cosRoll - z * sinRoll * cosPitch heading = math.atan2(Yh, Xh) d_heading = math.degrees(heading) * -1 # for some reason getting inveted sign here # update compass widget self.compass.setAngle(d_heading) # lock heading to 0 degrees north if d_heading > 0: yaw_trim = -20 else: yaw_trim = 20 self.helper.inputDeviceReader.update_trim_yaw_signal.emit(yaw_trim) def connected(self, linkURI): lg = LogConfig("Stabalizer", 100) lg.addVariable(LogVariable("stabilizer.roll", "float")) lg.addVariable(LogVariable("stabilizer.pitch", "float")) lg.addVariable(LogVariable("stabilizer.yaw", "float")) lg.addVariable(LogVariable("stabilizer.thrust", "uint16_t")) self.log = self.helper.cf.log.create_log_packet(lg) if (self.log is not None): self.log.dataReceived.add_callback(self._imu_data_signal.emit) self.log.error.add_callback(self.loggingError) self.log.start() else: logger.warning("Could not setup logconfiguration after connection!") lg = LogConfig("Motors", 100) lg.addVariable(LogVariable("motor.m1", "uint32_t")) lg.addVariable(LogVariable("motor.m2", "uint32_t")) lg.addVariable(LogVariable("motor.m3", "uint32_t")) lg.addVariable(LogVariable("motor.m4", "uint32_t")) self.log = self.helper.cf.log.create_log_packet(lg) if (self.log is not None): self.log.dataReceived.add_callback(self._motor_data_signal.emit) self.log.error.add_callback(self.loggingError) self.log.start() else: logger.warning("Could not setup logconfiguration after connection!") lg = LogConfig("Altimeter", 100) lg.addVariable(LogVariable("altimeter.pressure", "float")) lg.addVariable(LogVariable("altimeter.temperature", "float")) self.log = self.helper.cf.log.create_log_packet(lg) if (self.log is not None): self.log.dataReceived.add_callback(self._altimeter_data_signal.emit) self.log.error.add_callback(self.loggingError) self.log.start() else: logger.warning("Could not setup logconfiguration after connection!") lg = LogConfig("Magnetometer", 100) lg.addVariable(LogVariable("mag.x", "int16_t")) lg.addVariable(LogVariable("mag.y", "int16_t")) lg.addVariable(LogVariable("mag.z", "int16_t")) self.log = self.helper.cf.log.create_log_packet(lg) if (self.log is not None): self.log.dataReceived.add_callback(self._mag_data_signal.emit) self.log.error.add_callback(self.loggingError) self.log.start() else: logger.warning("Could not setup logconfiguration after connection!") def disconnected(self, linkURI): self.ai.setRollPitch(0, 0) self.actualM1.setValue(0) self.actualM2.setValue(0) self.actualM3.setValue(0) self.actualM4.setValue(0) self.actualRoll.setText("") self.actualPitch.setText("") self.actualYaw.setText("") self.actualThrust.setText("") def minMaxThrustChanged(self): self.helper.inputDeviceReader.updateMinMaxThrustSignal.emit(self.percentageToThrust(self.minThrust.value()), self.percentageToThrust(self.maxThrust.value())) if (self.isInCrazyFlightmode == True): Config().set("min_thrust", self.minThrust.value()) Config().set("max_thrust", self.maxThrust.value()) def thrustLoweringSlewRateLimitChanged(self): self.helper.inputDeviceReader.updateThrustLoweringSlewrateSignal.emit( self.percentageToThrust(self.thrustLoweringSlewRateLimit.value()), self.percentageToThrust(self.slewEnableLimit.value())) if (self.isInCrazyFlightmode == True): Config().set("slew_limit", self.slewEnableLimit.value()) Config().set("slew_rate", self.thrustLoweringSlewRateLimit.value()) def maxYawRateChanged(self): logger.debug("MaxYawrate changed to %d", self.maxYawRate.value()) self.helper.inputDeviceReader.updateMaxYawRateSignal.emit(self.maxYawRate.value()) if (self.isInCrazyFlightmode == True): Config().set("max_yaw", self.maxYawRate.value()) def maxAngleChanged(self): logger.debug("MaxAngle changed to %d", self.maxAngle.value()) self.helper.inputDeviceReader.updateMaxRPAngleSignal.emit(self.maxAngle.value()) if (self.isInCrazyFlightmode == True): Config().set("max_rp", self.maxAngle.value()) def _trim_pitch_changed(self, value): logger.debug("Pitch trim updated to [%f]" % value) self.helper.inputDeviceReader.update_trim_pitch_signal.emit(value) Config().set("trim_pitch", value) def _trim_roll_changed(self, value): logger.debug("Roll trim updated to [%f]" % value) self.helper.inputDeviceReader.update_trim_roll_signal.emit(value) Config().set("trim_roll", value) def calUpdateFromInput(self, rollCal, pitchCal): logger.debug("Trim changed on joystick: roll=%.2f, pitch=%.2f", rollCal, pitchCal) self.targetCalRoll.setValue(rollCal) self.targetCalPitch.setValue(pitchCal) def updateInputControl(self, roll, pitch, yaw, thrust): self.targetRoll.setText(("%0.2f" % roll)); self.targetPitch.setText(("%0.2f" % pitch)); self.targetYaw.setText(("%0.2f" % yaw)); self.targetThrust.setText(("%0.2f %%" % self.thrustToPercentage(thrust))); self.thrustProgress.setValue(thrust) def flightmodeChange(self, item): Config().set("flightmode", self.flightModeCombo.itemText(item)) logger.info("Changed flightmode to %s", self.flightModeCombo.itemText(item)) self.isInCrazyFlightmode = False if (item == 0): # Normal self.maxAngle.setValue(Config().get("normal_max_rp")) self.maxThrust.setValue(Config().get("normal_max_thrust")) self.minThrust.setValue(Config().get("normal_min_thrust")) self.slewEnableLimit.setValue(Config().get("normal_slew_limit")) self.thrustLoweringSlewRateLimit.setValue(Config().get("normal_slew_rate")) self.maxYawRate.setValue(Config().get("normal_max_yaw")) if (item == 1): # Advanced self.maxAngle.setValue(Config().get("max_rp")) self.maxThrust.setValue(Config().get("max_thrust")) self.minThrust.setValue(Config().get("min_thrust")) self.slewEnableLimit.setValue(Config().get("slew_limit")) self.thrustLoweringSlewRateLimit.setValue(Config().get("slew_rate")) self.maxYawRate.setValue(Config().get("max_yaw")) self.isInCrazyFlightmode = True if (item == 0): newState = False else: newState = True self.maxThrust.setEnabled(newState) self.maxAngle.setEnabled(newState) self.minThrust.setEnabled(newState) self.thrustLoweringSlewRateLimit.setEnabled(newState) self.slewEnableLimit.setEnabled(newState) self.maxYawRate.setEnabled(newState) @pyqtSlot(bool) def changeXmode(self, checked): self.helper.cf.commander.set_client_xmode(checked) Config().set("client_side_xmode", checked) logger.info("Clientside X-mode enabled: %s", checked)
class FlightTab(Tab, flight_tab_class): uiSetupReadySignal = pyqtSignal() _log_data_signal = pyqtSignal(int, object, object) _pose_data_signal = pyqtSignal(object, object) _input_updated_signal = pyqtSignal(float, float, float, float) _rp_trim_updated_signal = pyqtSignal(float, float) _emergency_stop_updated_signal = pyqtSignal(bool) _assisted_control_updated_signal = pyqtSignal(bool) _heighthold_input_updated_signal = pyqtSignal(float, float, float, float) _hover_input_updated_signal = pyqtSignal(float, float, float, float) _log_error_signal = pyqtSignal(object, str) # UI_DATA_UPDATE_FPS = 10 connectionFinishedSignal = pyqtSignal(str) disconnectedSignal = pyqtSignal(str) _limiting_updated = pyqtSignal(bool, bool, bool) def __init__(self, tabWidget, helper, *args): super(FlightTab, self).__init__(*args) self.setupUi(self) self.tabName = "Flight Control" self.menuName = "Flight Control" self.tabWidget = tabWidget self.helper = helper self.disconnectedSignal.connect(self.disconnected) self.connectionFinishedSignal.connect(self.connected) # Incomming signals self.helper.cf.connected.add_callback( self.connectionFinishedSignal.emit) self.helper.cf.disconnected.add_callback(self.disconnectedSignal.emit) self._input_updated_signal.connect(self.updateInputControl) self.helper.inputDeviceReader.input_updated.add_callback( self._input_updated_signal.emit) self._rp_trim_updated_signal.connect(self.calUpdateFromInput) self.helper.inputDeviceReader.rp_trim_updated.add_callback( self._rp_trim_updated_signal.emit) self._emergency_stop_updated_signal.connect(self.updateEmergencyStop) self.helper.inputDeviceReader.emergency_stop_updated.add_callback( self._emergency_stop_updated_signal.emit) self.helper.inputDeviceReader.heighthold_input_updated.add_callback( self._heighthold_input_updated_signal.emit) self._heighthold_input_updated_signal.connect( self._heighthold_input_updated) self.helper.inputDeviceReader.hover_input_updated.add_callback( self._hover_input_updated_signal.emit) self._hover_input_updated_signal.connect( self._hover_input_updated) self.helper.inputDeviceReader.assisted_control_updated.add_callback( self._assisted_control_updated_signal.emit) self._assisted_control_updated_signal.connect( self._assisted_control_updated) self._pose_data_signal.connect(self._pose_data_received) self._log_data_signal.connect(self._log_data_received) self._log_error_signal.connect(self._logging_error) # Connect UI signals that are in this tab self.flightModeCombo.currentIndexChanged.connect(self.flightmodeChange) self.minThrust.valueChanged.connect(self.minMaxThrustChanged) self.maxThrust.valueChanged.connect(self.minMaxThrustChanged) self.thrustLoweringSlewRateLimit.valueChanged.connect( self.thrustLoweringSlewRateLimitChanged) self.slewEnableLimit.valueChanged.connect( self.thrustLoweringSlewRateLimitChanged) self.targetCalRoll.valueChanged.connect(self._trim_roll_changed) self.targetCalPitch.valueChanged.connect(self._trim_pitch_changed) self.maxAngle.valueChanged.connect(self.maxAngleChanged) self.maxYawRate.valueChanged.connect(self.maxYawRateChanged) self.uiSetupReadySignal.connect(self.uiSetupReady) self.isInCrazyFlightmode = False # Command Based Flight Control self._can_fly = 0 self._hlCommander = None self.commanderTakeOffButton.clicked.connect( lambda: self._flight_command(CommanderAction.TAKE_OFF) ) self.commanderLandButton.clicked.connect( lambda: self._flight_command(CommanderAction.LAND) ) self.commanderLeftButton.clicked.connect( lambda: self._flight_command(CommanderAction.LEFT) ) self.commanderRightButton.clicked.connect( lambda: self._flight_command(CommanderAction.RIGHT) ) self.commanderForwardButton.clicked.connect( lambda: self._flight_command(CommanderAction.FORWARD) ) self.commanderBackButton.clicked.connect( lambda: self._flight_command(CommanderAction.BACK) ) self.commanderUpButton.clicked.connect( lambda: self._flight_command(CommanderAction.UP) ) self.commanderDownButton.clicked.connect( lambda: self._flight_command(CommanderAction.DOWN) ) self.uiSetupReady() self.ratePidRadioButton.clicked.connect( lambda enabled: self.helper.cf.param.set_value("flightmode.ratepid", str(enabled))) self.angularPidRadioButton.clicked.connect( lambda enabled: self.helper.cf.param.set_value("flightmode.ratepid", str(not enabled))) self._led_ring_headlight.clicked.connect( lambda enabled: self.helper.cf.param.set_value("ring.headlightEnable", str(enabled))) self.helper.cf.param.add_update_callback( group="flightmode", name="ratepid", cb=(lambda name, checked: self.ratePidRadioButton.setChecked(eval(checked)))) self.helper.cf.param.add_update_callback( group="ring", name="headlightEnable", cb=(lambda name, checked: self._led_ring_headlight.setChecked(eval(checked)))) self._ledring_nbr_effects = 0 self.helper.cf.param.add_update_callback( group="ring", name="effect", cb=self._ring_effect_updated) self.helper.cf.param.add_update_callback( group="imu_sensors", cb=self._set_available_sensors) self.helper.cf.param.all_updated.add_callback( self._all_params_updated) self.logAltHold = None self.ai = AttitudeIndicator() self.verticalLayout_4.addWidget(self.ai) self.splitter.setSizes([1000, 1]) self.targetCalPitch.setValue(Config().get("trim_pitch")) self.targetCalRoll.setValue(Config().get("trim_roll")) self.helper.inputDeviceReader.alt1_updated.add_callback( self.alt1_updated) self.helper.inputDeviceReader.alt2_updated.add_callback( self.alt2_updated) self._tf_state = 0 self._ring_effect = 0 # Connect callbacks for input device limiting of rpöö/pitch/yaw/thust self.helper.inputDeviceReader.limiting_updated.add_callback( self._limiting_updated.emit) self._limiting_updated.connect(self._set_limiting_enabled) self.helper.pose_logger.data_received_cb.add_callback( self._pose_data_signal.emit) def _set_limiting_enabled(self, rp_limiting_enabled, yaw_limiting_enabled, thrust_limiting_enabled): self.maxAngle.setEnabled(rp_limiting_enabled) self.targetCalRoll.setEnabled(rp_limiting_enabled) self.targetCalPitch.setEnabled(rp_limiting_enabled) self.maxYawRate.setEnabled(yaw_limiting_enabled) self.maxThrust.setEnabled(thrust_limiting_enabled) self.minThrust.setEnabled(thrust_limiting_enabled) self.slewEnableLimit.setEnabled(thrust_limiting_enabled) self.thrustLoweringSlewRateLimit.setEnabled(thrust_limiting_enabled) def thrustToPercentage(self, thrust): return ((thrust / MAX_THRUST) * 100.0) def uiSetupReady(self): flightComboIndex = self.flightModeCombo.findText( Config().get("flightmode"), Qt.MatchFixedString) if (flightComboIndex < 0): self.flightModeCombo.setCurrentIndex(0) self.flightModeCombo.currentIndexChanged.emit(0) else: self.flightModeCombo.setCurrentIndex(flightComboIndex) self.flightModeCombo.currentIndexChanged.emit(flightComboIndex) def _flight_command(self, action): if self._hlCommander is None: return if action == CommanderAction.TAKE_OFF: # # Reset the Kalman filter before taking off, to avoid # positional confusion. # self.helper.cf.param.set_value('kalman.resetEstimation', '1') time.sleep(1) self._hlCommander.take_off() elif action == CommanderAction.LAND: self._hlCommander.land() elif action == CommanderAction.LEFT: self._hlCommander.left(0.5) elif action == CommanderAction.RIGHT: self._hlCommander.right(0.5) elif action == CommanderAction.FORWARD: self._hlCommander.forward(0.5) elif action == CommanderAction.BACK: self._hlCommander.back(0.5) elif action == CommanderAction.UP: self._hlCommander.up(0.5) elif action == CommanderAction.DOWN: self._hlCommander.down(0.5) def _logging_error(self, log_conf, msg): QMessageBox.about(self, "Log error", "Error when starting log config [%s]: %s" % ( log_conf.name, msg)) def _log_data_received(self, timestamp, data, logconf): if self.isVisible(): self.actualM1.setValue(data["motor.m1"]) self.actualM2.setValue(data["motor.m2"]) self.actualM3.setValue(data["motor.m3"]) self.actualM4.setValue(data["motor.m4"]) self.estimateThrust.setText( "%.2f%%" % self.thrustToPercentage(data["stabilizer.thrust"])) if data["sys.canfly"] != self._can_fly: self._can_fly = data["sys.canfly"] self._update_flight_commander(True) def _pose_data_received(self, pose_logger, pose): if self.isVisible(): estimated_z = pose[2] roll = pose[3] pitch = pose[4] self.estimateX.setText(("%.2f" % pose[0])) self.estimateY.setText(("%.2f" % pose[1])) self.estimateZ.setText(("%.2f" % estimated_z)) self.estimateRoll.setText(("%.2f" % roll)) self.estimatePitch.setText(("%.2f" % pitch)) self.estimateYaw.setText(("%.2f" % pose[5])) self.ai.setBaro(estimated_z, self.is_visible()) self.ai.setRollPitch(-roll, pitch, self.is_visible()) def _heighthold_input_updated(self, roll, pitch, yaw, height): if (self.isVisible() and (self.helper.inputDeviceReader.get_assisted_control() == self.helper.inputDeviceReader.ASSISTED_CONTROL_HEIGHTHOLD)): self.targetRoll.setText(("%0.2f deg" % roll)) self.targetPitch.setText(("%0.2f deg" % pitch)) self.targetYaw.setText(("%0.2f deg/s" % yaw)) self.targetHeight.setText(("%.2f m" % height)) self.ai.setHover(height, self.is_visible()) self._change_input_labels(using_hover_assist=False) def _hover_input_updated(self, vx, vy, yaw, height): if (self.isVisible() and (self.helper.inputDeviceReader.get_assisted_control() == self.helper.inputDeviceReader.ASSISTED_CONTROL_HOVER)): self.targetRoll.setText(("%0.2f m/s" % vy)) self.targetPitch.setText(("%0.2f m/s" % vx)) self.targetYaw.setText(("%0.2f deg/s" % yaw)) self.targetHeight.setText(("%.2f m" % height)) self.ai.setHover(height, self.is_visible()) self._change_input_labels(using_hover_assist=True) def _change_input_labels(self, using_hover_assist): if using_hover_assist: pitch, roll, yaw = 'Velocity X', 'Velocity Y', 'Velocity Z' else: pitch, roll, yaw = 'Pitch', 'Roll', 'Yaw' self.inputPitchLabel.setText(pitch) self.inputRollLabel.setText(roll) self.inputYawLabel.setText(yaw) def _update_flight_commander(self, connected): self.commanderBox.setToolTip(str()) if not connected: self.commanderBox.setEnabled(False) return if self._can_fly == 0: self.commanderBox.setEnabled(False) self.commanderBox.setToolTip( 'The Crazyflie reports that flight is not possible' ) return # flowV1 flowV2 LightHouse LPS position_decks = ['bcFlow', 'bcFlow2', 'bcLighthouse4', 'bcDWM1000'] for deck in position_decks: if int(self.helper.cf.param.values['deck'][deck]) == 1: self.commanderBox.setEnabled(True) break else: self.commanderBox.setToolTip( 'You need a positioning deck to use Command Based Flight' ) self.commanderBox.setEnabled(False) def connected(self, linkURI): # MOTOR & THRUST lg = LogConfig("Motors", Config().get("ui_update_period")) lg.add_variable("stabilizer.thrust", "uint16_t") lg.add_variable("motor.m1") lg.add_variable("motor.m2") lg.add_variable("motor.m3") lg.add_variable("motor.m4") lg.add_variable("sys.canfly") self._hlCommander = PositionHlCommander( self.helper.cf, x=0.0, y=0.0, z=0.0, default_velocity=0.3, default_height=0.5, controller=PositionHlCommander.CONTROLLER_PID ) try: self.helper.cf.log.add_config(lg) lg.data_received_cb.add_callback(self._log_data_signal.emit) lg.error_cb.add_callback(self._log_error_signal.emit) lg.start() except KeyError as e: logger.warning(str(e)) except AttributeError as e: logger.warning(str(e)) def _enable_estimators(self, should_enable): self.estimateX.setEnabled(should_enable) self.estimateY.setEnabled(should_enable) self.estimateZ.setEnabled(should_enable) def _set_available_sensors(self, name, available): logger.info("[%s]: %s", name, available) available = eval(available) self._enable_estimators(True) self.helper.inputDeviceReader.set_alt_hold_available(available) def disconnected(self, linkURI): self.ai.setRollPitch(0, 0) self.actualM1.setValue(0) self.actualM2.setValue(0) self.actualM3.setValue(0) self.actualM4.setValue(0) self.estimateRoll.setText("") self.estimatePitch.setText("") self.estimateYaw.setText("") self.estimateThrust.setText("") self.estimateX.setText("") self.estimateY.setText("") self.estimateZ.setText("") self.targetHeight.setText("Not Set") self.ai.setHover(0, self.is_visible()) self.targetHeight.setEnabled(False) self._enable_estimators(False) self.logAltHold = None self._led_ring_effect.setEnabled(False) self._led_ring_effect.clear() try: self._led_ring_effect.currentIndexChanged.disconnect( self._ring_effect_changed) except TypeError: # Signal was not connected pass self._led_ring_effect.setCurrentIndex(-1) self._led_ring_headlight.setEnabled(False) try: self._assist_mode_combo.currentIndexChanged.disconnect( self._assist_mode_changed) except TypeError: # Signal was not connected pass self._assist_mode_combo.setEnabled(False) self._assist_mode_combo.clear() self._update_flight_commander(False) def minMaxThrustChanged(self): self.helper.inputDeviceReader.min_thrust = self.minThrust.value() self.helper.inputDeviceReader.max_thrust = self.maxThrust.value() if (self.isInCrazyFlightmode is True): Config().set("min_thrust", self.minThrust.value()) Config().set("max_thrust", self.maxThrust.value()) def thrustLoweringSlewRateLimitChanged(self): self.helper.inputDeviceReader.thrust_slew_rate = ( self.thrustLoweringSlewRateLimit.value()) self.helper.inputDeviceReader.thrust_slew_limit = ( self.slewEnableLimit.value()) if (self.isInCrazyFlightmode is True): Config().set("slew_limit", self.slewEnableLimit.value()) Config().set("slew_rate", self.thrustLoweringSlewRateLimit.value()) def maxYawRateChanged(self): logger.debug("MaxYawrate changed to %d", self.maxYawRate.value()) self.helper.inputDeviceReader.max_yaw_rate = self.maxYawRate.value() if (self.isInCrazyFlightmode is True): Config().set("max_yaw", self.maxYawRate.value()) def maxAngleChanged(self): logger.debug("MaxAngle changed to %d", self.maxAngle.value()) self.helper.inputDeviceReader.max_rp_angle = self.maxAngle.value() if (self.isInCrazyFlightmode is True): Config().set("max_rp", self.maxAngle.value()) def _trim_pitch_changed(self, value): logger.debug("Pitch trim updated to [%f]" % value) self.helper.inputDeviceReader.trim_pitch = value Config().set("trim_pitch", value) def _trim_roll_changed(self, value): logger.debug("Roll trim updated to [%f]" % value) self.helper.inputDeviceReader.trim_roll = value Config().set("trim_roll", value) def calUpdateFromInput(self, rollCal, pitchCal): logger.debug("Trim changed on joystick: roll=%.2f, pitch=%.2f", rollCal, pitchCal) self.targetCalRoll.setValue(rollCal) self.targetCalPitch.setValue(pitchCal) def updateInputControl(self, roll, pitch, yaw, thrust): self.targetRoll.setText(("%0.2f deg" % roll)) self.targetPitch.setText(("%0.2f deg" % pitch)) self.targetYaw.setText(("%0.2f deg/s" % yaw)) self.targetThrust.setText(("%0.2f %%" % self.thrustToPercentage(thrust))) self.thrustProgress.setValue(thrust) self._change_input_labels(using_hover_assist=False) def setMotorLabelsEnabled(self, enabled): self.M1label.setEnabled(enabled) self.M2label.setEnabled(enabled) self.M3label.setEnabled(enabled) self.M4label.setEnabled(enabled) def emergencyStopStringWithText(self, text): return ("<html><head/><body><p>" "<span style='font-weight:600; color:#7b0005;'>{}</span>" "</p></body></html>".format(text)) def updateEmergencyStop(self, emergencyStop): if emergencyStop: self.setMotorLabelsEnabled(False) self.emergency_stop_label.setText( self.emergencyStopStringWithText("Kill switch active")) else: self.setMotorLabelsEnabled(True) self.emergency_stop_label.setText("") def flightmodeChange(self, item): Config().set("flightmode", str(self.flightModeCombo.itemText(item))) logger.debug("Changed flightmode to %s", self.flightModeCombo.itemText(item)) self.isInCrazyFlightmode = False if (item == 0): # Normal self.maxAngle.setValue(Config().get("normal_max_rp")) self.maxThrust.setValue(Config().get("normal_max_thrust")) self.minThrust.setValue(Config().get("normal_min_thrust")) self.slewEnableLimit.setValue(Config().get("normal_slew_limit")) self.thrustLoweringSlewRateLimit.setValue( Config().get("normal_slew_rate")) self.maxYawRate.setValue(Config().get("normal_max_yaw")) if (item == 1): # Advanced self.maxAngle.setValue(Config().get("max_rp")) self.maxThrust.setValue(Config().get("max_thrust")) self.minThrust.setValue(Config().get("min_thrust")) self.slewEnableLimit.setValue(Config().get("slew_limit")) self.thrustLoweringSlewRateLimit.setValue( Config().get("slew_rate")) self.maxYawRate.setValue(Config().get("max_yaw")) self.isInCrazyFlightmode = True if (item == 0): newState = False else: newState = True self.maxThrust.setEnabled(newState) self.maxAngle.setEnabled(newState) self.minThrust.setEnabled(newState) self.thrustLoweringSlewRateLimit.setEnabled(newState) self.slewEnableLimit.setEnabled(newState) self.maxYawRate.setEnabled(newState) def _assist_mode_changed(self, item): mode = None if (item == 0): # Altitude hold mode = JoystickReader.ASSISTED_CONTROL_ALTHOLD if (item == 1): # Position hold mode = JoystickReader.ASSISTED_CONTROL_POSHOLD if (item == 2): # Position hold mode = JoystickReader.ASSISTED_CONTROL_HEIGHTHOLD if (item == 3): # Position hold mode = JoystickReader.ASSISTED_CONTROL_HOVER self.helper.inputDeviceReader.set_assisted_control(mode) Config().set("assistedControl", mode) def _assisted_control_updated(self, enabled): if self.helper.inputDeviceReader.get_assisted_control() == \ JoystickReader.ASSISTED_CONTROL_POSHOLD: self.targetThrust.setEnabled(not enabled) self.targetRoll.setEnabled(not enabled) self.targetPitch.setEnabled(not enabled) elif ((self.helper.inputDeviceReader.get_assisted_control() == JoystickReader.ASSISTED_CONTROL_HEIGHTHOLD) or (self.helper.inputDeviceReader.get_assisted_control() == JoystickReader.ASSISTED_CONTROL_HOVER)): self.targetThrust.setEnabled(not enabled) self.targetHeight.setEnabled(enabled) print('Chaning enable for target height: %s' % enabled) else: self.helper.cf.param.set_value("flightmode.althold", str(enabled)) def alt1_updated(self, state): if state: new_index = (self._ring_effect+1) % (self._ledring_nbr_effects+1) self.helper.cf.param.set_value("ring.effect", str(new_index)) def alt2_updated(self, state): self.helper.cf.param.set_value("ring.headlightEnable", str(state)) def _all_params_updated(self): self._ring_populate_dropdown() self._populate_assisted_mode_dropdown() self._update_flight_commander(True) def _ring_populate_dropdown(self): try: nbr = int(self.helper.cf.param.values["ring"]["neffect"]) current = int(self.helper.cf.param.values["ring"]["effect"]) except KeyError: return # Used only in alt1_updated function self._ring_effect = current self._ledring_nbr_effects = nbr hardcoded_names = { 0: "Off", 1: "White spinner", 2: "Color spinner", 3: "Tilt effect", 4: "Brightness effect", 5: "Color spinner 2", 6: "Double spinner", 7: "Solid color effect", 8: "Factory test", 9: "Battery status", 10: "Boat lights", 11: "Alert", 12: "Gravity", 13: "LED tab", 14: "Color fader", 15: "Link quality", 16: "Location server status", 17: "Sequencer", 18: "Lighthouse quality", } for i in range(nbr + 1): name = "{}: ".format(i) if i in hardcoded_names: name += hardcoded_names[i] else: name += "N/A" self._led_ring_effect.addItem(name, i) self._led_ring_effect.currentIndexChanged.connect( self._ring_effect_changed) self._led_ring_effect.setCurrentIndex(current) if int(self.helper.cf.param.values["deck"]["bcLedRing"]) == 1: self._led_ring_effect.setEnabled(True) self._led_ring_headlight.setEnabled(True) def _ring_effect_changed(self, index): self._ring_effect = index if index > -1: i = self._led_ring_effect.itemData(index) logger.info("Changed effect to {}".format(i)) if i != int(self.helper.cf.param.values["ring"]["effect"]): self.helper.cf.param.set_value("ring.effect", str(i)) def _ring_effect_updated(self, name, value): if self.helper.cf.param.is_updated: self._led_ring_effect.setCurrentIndex(int(value)) def _populate_assisted_mode_dropdown(self): self._assist_mode_combo.addItem("Altitude hold", 0) self._assist_mode_combo.addItem("Position hold", 1) self._assist_mode_combo.addItem("Height hold", 2) self._assist_mode_combo.addItem("Hover", 3) # Add the tooltips to the assist-mode items. self._assist_mode_combo.setItemData(0, TOOLTIP_ALTITUDE_HOLD, Qt.ToolTipRole) self._assist_mode_combo.setItemData(1, TOOLTIP_POSITION_HOLD, Qt.ToolTipRole) self._assist_mode_combo.setItemData(2, TOOLTIP_HEIGHT_HOLD, Qt.ToolTipRole) self._assist_mode_combo.setItemData(3, TOOLTIP_HOVER, Qt.ToolTipRole) heightHoldPossible = False hoverPossible = False if int(self.helper.cf.param.values["deck"]["bcZRanger"]) == 1: heightHoldPossible = True self.helper.inputDeviceReader.set_hover_max_height(1.0) if int(self.helper.cf.param.values["deck"]["bcZRanger2"]) == 1: heightHoldPossible = True self.helper.inputDeviceReader.set_hover_max_height(2.0) if int(self.helper.cf.param.values["deck"]["bcFlow"]) == 1: heightHoldPossible = True hoverPossible = True self.helper.inputDeviceReader.set_hover_max_height(1.0) if int(self.helper.cf.param.values["deck"]["bcFlow2"]) == 1: heightHoldPossible = True hoverPossible = True self.helper.inputDeviceReader.set_hover_max_height(2.0) if not heightHoldPossible: self._assist_mode_combo.model().item(2).setEnabled(False) else: self._assist_mode_combo.model().item(0).setEnabled(False) if not hoverPossible: self._assist_mode_combo.model().item(3).setEnabled(False) else: self._assist_mode_combo.model().item(0).setEnabled(False) self._assist_mode_combo.currentIndexChanged.connect( self._assist_mode_changed) self._assist_mode_combo.setEnabled(True) try: assistmodeComboIndex = Config().get("assistedControl") if assistmodeComboIndex == 3 and not hoverPossible: self._assist_mode_combo.setCurrentIndex(0) self._assist_mode_combo.currentIndexChanged.emit(0) elif assistmodeComboIndex == 0 and hoverPossible: self._assist_mode_combo.setCurrentIndex(3) self._assist_mode_combo.currentIndexChanged.emit(3) elif assistmodeComboIndex == 2 and not heightHoldPossible: self._assist_mode_combo.setCurrentIndex(0) self._assist_mode_combo.currentIndexChanged.emit(0) elif assistmodeComboIndex == 0 and heightHoldPossible: self._assist_mode_combo.setCurrentIndex(2) self._assist_mode_combo.currentIndexChanged.emit(2) else: self._assist_mode_combo.setCurrentIndex(assistmodeComboIndex) self._assist_mode_combo.currentIndexChanged.emit( assistmodeComboIndex) except KeyError: defaultOption = 0 if hoverPossible: defaultOption = 3 elif heightHoldPossible: defaultOption = 2 self._assist_mode_combo.setCurrentIndex(defaultOption) self._assist_mode_combo.currentIndexChanged.emit(defaultOption)
def __init__(self, tabWidget, helper, *args): super(FlightTab, self).__init__(*args) self.setupUi(self) self.tabName = "Flight Control" self.menuName = "Flight Control" self.tabWidget = tabWidget self.helper = helper self.disconnectedSignal.connect(self.disconnected) self.connectionFinishedSignal.connect(self.connected) # Incomming signals self.helper.cf.connected.add_callback( self.connectionFinishedSignal.emit) self.helper.cf.disconnected.add_callback(self.disconnectedSignal.emit) self._input_updated_signal.connect(self.updateInputControl) self.helper.inputDeviceReader.input_updated.add_callback( self._input_updated_signal.emit) self._rp_trim_updated_signal.connect(self.calUpdateFromInput) self.helper.inputDeviceReader.rp_trim_updated.add_callback( self._rp_trim_updated_signal.emit) self._emergency_stop_updated_signal.connect(self.updateEmergencyStop) self.helper.inputDeviceReader.emergency_stop_updated.add_callback( self._emergency_stop_updated_signal.emit) self.helper.inputDeviceReader.heighthold_input_updated.add_callback( self._heighthold_input_updated_signal.emit) self._heighthold_input_updated_signal.connect( self._heighthold_input_updated) self.helper.inputDeviceReader.hover_input_updated.add_callback( self._hover_input_updated_signal.emit) self._hover_input_updated_signal.connect( self._hover_input_updated) self.helper.inputDeviceReader.assisted_control_updated.add_callback( self._assisted_control_updated_signal.emit) self._assisted_control_updated_signal.connect( self._assisted_control_updated) self._pose_data_signal.connect(self._pose_data_received) self._log_data_signal.connect(self._log_data_received) self._log_error_signal.connect(self._logging_error) # Connect UI signals that are in this tab self.flightModeCombo.currentIndexChanged.connect(self.flightmodeChange) self.minThrust.valueChanged.connect(self.minMaxThrustChanged) self.maxThrust.valueChanged.connect(self.minMaxThrustChanged) self.thrustLoweringSlewRateLimit.valueChanged.connect( self.thrustLoweringSlewRateLimitChanged) self.slewEnableLimit.valueChanged.connect( self.thrustLoweringSlewRateLimitChanged) self.targetCalRoll.valueChanged.connect(self._trim_roll_changed) self.targetCalPitch.valueChanged.connect(self._trim_pitch_changed) self.maxAngle.valueChanged.connect(self.maxAngleChanged) self.maxYawRate.valueChanged.connect(self.maxYawRateChanged) self.uiSetupReadySignal.connect(self.uiSetupReady) self.isInCrazyFlightmode = False # Command Based Flight Control self._can_fly = 0 self._hlCommander = None self.commanderTakeOffButton.clicked.connect( lambda: self._flight_command(CommanderAction.TAKE_OFF) ) self.commanderLandButton.clicked.connect( lambda: self._flight_command(CommanderAction.LAND) ) self.commanderLeftButton.clicked.connect( lambda: self._flight_command(CommanderAction.LEFT) ) self.commanderRightButton.clicked.connect( lambda: self._flight_command(CommanderAction.RIGHT) ) self.commanderForwardButton.clicked.connect( lambda: self._flight_command(CommanderAction.FORWARD) ) self.commanderBackButton.clicked.connect( lambda: self._flight_command(CommanderAction.BACK) ) self.commanderUpButton.clicked.connect( lambda: self._flight_command(CommanderAction.UP) ) self.commanderDownButton.clicked.connect( lambda: self._flight_command(CommanderAction.DOWN) ) self.uiSetupReady() self.ratePidRadioButton.clicked.connect( lambda enabled: self.helper.cf.param.set_value("flightmode.ratepid", str(enabled))) self.angularPidRadioButton.clicked.connect( lambda enabled: self.helper.cf.param.set_value("flightmode.ratepid", str(not enabled))) self._led_ring_headlight.clicked.connect( lambda enabled: self.helper.cf.param.set_value("ring.headlightEnable", str(enabled))) self.helper.cf.param.add_update_callback( group="flightmode", name="ratepid", cb=(lambda name, checked: self.ratePidRadioButton.setChecked(eval(checked)))) self.helper.cf.param.add_update_callback( group="ring", name="headlightEnable", cb=(lambda name, checked: self._led_ring_headlight.setChecked(eval(checked)))) self._ledring_nbr_effects = 0 self.helper.cf.param.add_update_callback( group="ring", name="effect", cb=self._ring_effect_updated) self.helper.cf.param.add_update_callback( group="imu_sensors", cb=self._set_available_sensors) self.helper.cf.param.all_updated.add_callback( self._all_params_updated) self.logAltHold = None self.ai = AttitudeIndicator() self.verticalLayout_4.addWidget(self.ai) self.splitter.setSizes([1000, 1]) self.targetCalPitch.setValue(Config().get("trim_pitch")) self.targetCalRoll.setValue(Config().get("trim_roll")) self.helper.inputDeviceReader.alt1_updated.add_callback( self.alt1_updated) self.helper.inputDeviceReader.alt2_updated.add_callback( self.alt2_updated) self._tf_state = 0 self._ring_effect = 0 # Connect callbacks for input device limiting of rpöö/pitch/yaw/thust self.helper.inputDeviceReader.limiting_updated.add_callback( self._limiting_updated.emit) self._limiting_updated.connect(self._set_limiting_enabled) self.helper.pose_logger.data_received_cb.add_callback( self._pose_data_signal.emit)
class FlightTab(Tab, flight_tab_class): uiSetupReadySignal = pyqtSignal() _motor_data_signal = pyqtSignal(int, object, object) _imu_data_signal = pyqtSignal(int, object, object) _althold_data_signal = pyqtSignal(int, object, object) _baro_data_signal = pyqtSignal(int, object, object) _input_updated_signal = pyqtSignal(float, float, float, float) _rp_trim_updated_signal = pyqtSignal(float, float) _emergency_stop_updated_signal = pyqtSignal(bool) _log_error_signal = pyqtSignal(object, str) #UI_DATA_UPDATE_FPS = 10 connectionFinishedSignal = pyqtSignal(str) disconnectedSignal = pyqtSignal(str) _limiting_updated = pyqtSignal(bool, bool, bool) def __init__(self, tabWidget, helper, *args): super(FlightTab, self).__init__(*args) self.setupUi(self) self.tabName = "Flight Control" self.menuName = "Flight Control" self.tabWidget = tabWidget self.helper = helper self.disconnectedSignal.connect(self.disconnected) self.connectionFinishedSignal.connect(self.connected) # Incomming signals self.helper.cf.connected.add_callback( self.connectionFinishedSignal.emit) self.helper.cf.disconnected.add_callback(self.disconnectedSignal.emit) self._input_updated_signal.connect(self.updateInputControl) self.helper.inputDeviceReader.input_updated.add_callback( self._input_updated_signal.emit) self._rp_trim_updated_signal.connect(self.calUpdateFromInput) self.helper.inputDeviceReader.rp_trim_updated.add_callback( self._rp_trim_updated_signal.emit) self._emergency_stop_updated_signal.connect(self.updateEmergencyStop) self.helper.inputDeviceReader.emergency_stop_updated.add_callback( self._emergency_stop_updated_signal.emit) self.helper.inputDeviceReader.althold_updated.add_callback( lambda enabled: self.helper.cf.param.set_value( "flightmode.althold", enabled)) self._imu_data_signal.connect(self._imu_data_received) self._baro_data_signal.connect(self._baro_data_received) self._althold_data_signal.connect(self._althold_data_received) self._motor_data_signal.connect(self._motor_data_received) self._log_error_signal.connect(self._logging_error) # Connect UI signals that are in this tab self.flightModeCombo.currentIndexChanged.connect(self.flightmodeChange) self.minThrust.valueChanged.connect(self.minMaxThrustChanged) self.maxThrust.valueChanged.connect(self.minMaxThrustChanged) self.thrustLoweringSlewRateLimit.valueChanged.connect( self.thrustLoweringSlewRateLimitChanged) self.slewEnableLimit.valueChanged.connect( self.thrustLoweringSlewRateLimitChanged) self.targetCalRoll.valueChanged.connect(self._trim_roll_changed) self.targetCalPitch.valueChanged.connect(self._trim_pitch_changed) self.maxAngle.valueChanged.connect(self.maxAngleChanged) self.maxYawRate.valueChanged.connect(self.maxYawRateChanged) self.uiSetupReadySignal.connect(self.uiSetupReady) self.clientXModeCheckbox.toggled.connect(self.changeXmode) self.isInCrazyFlightmode = False self.uiSetupReady() self.clientXModeCheckbox.setChecked(Config().get("client_side_xmode")) self.crazyflieXModeCheckbox.clicked.connect( lambda enabled: self.helper.cf.param.set_value( "flightmode.x", str(enabled))) self.helper.cf.param.add_update_callback( group="flightmode", name="xmode", cb=(lambda name, checked: self.crazyflieXModeCheckbox.setChecked( eval(checked)))) self.ratePidRadioButton.clicked.connect( lambda enabled: self.helper.cf.param.set_value( "flightmode.ratepid", str(enabled))) self.angularPidRadioButton.clicked.connect( lambda enabled: self.helper.cf.param.set_value( "flightmode.ratepid", str(not enabled))) self._led_ring_headlight.clicked.connect( lambda enabled: self.helper.cf.param.set_value( "ring.headlightEnable", str(enabled))) self.helper.cf.param.add_update_callback( group="flightmode", name="ratepid", cb=(lambda name, checked: self.ratePidRadioButton.setChecked( eval(checked)))) self.helper.cf.param.add_update_callback( group="ring", name="headlightEnable", cb=(lambda name, checked: self._led_ring_headlight.setChecked( eval(checked)))) self.helper.cf.param.add_update_callback( group="flightmode", name="althold", cb=(lambda name, enabled: self.helper.inputDeviceReader. enable_alt_hold(eval(enabled)))) self._ledring_nbr_effects = 0 self.helper.cf.param.add_update_callback( group="ring", name="neffect", cb=(lambda name, value: self._set_neffect(eval(value)))) self.helper.cf.param.add_update_callback( group="imu_sensors", cb=self._set_available_sensors) self.helper.cf.param.all_updated.add_callback( self._ring_populate_dropdown) self.logBaro = None self.logAltHold = None self.ai = AttitudeIndicator() self.verticalLayout_4.addWidget(self.ai) self.splitter.setSizes([1000, 1]) self.targetCalPitch.setValue(Config().get("trim_pitch")) self.targetCalRoll.setValue(Config().get("trim_roll")) self.helper.inputDeviceReader.alt1_updated.add_callback( self.alt1_updated) self.helper.inputDeviceReader.alt2_updated.add_callback( self.alt2_updated) self._tf_state = 0 self._ring_effect = 0 # Connect callbacks for input device limiting of rpöö/pitch/yaw/thust self.helper.inputDeviceReader.limiting_updated.add_callback( self._limiting_updated.emit) self._limiting_updated.connect(self._set_limiting_enabled) def _set_limiting_enabled(self, rp_limiting_enabled, yaw_limiting_enabled, thrust_limiting_enabled): self.maxAngle.setEnabled(rp_limiting_enabled) self.targetCalRoll.setEnabled(rp_limiting_enabled) self.targetCalPitch.setEnabled(rp_limiting_enabled) self.maxYawRate.setEnabled(yaw_limiting_enabled) self.maxThrust.setEnabled(thrust_limiting_enabled) self.minThrust.setEnabled(thrust_limiting_enabled) self.slewEnableLimit.setEnabled(thrust_limiting_enabled) self.thrustLoweringSlewRateLimit.setEnabled(thrust_limiting_enabled) def _set_neffect(self, n): self._ledring_nbr_effects = n def thrustToPercentage(self, thrust): return ((thrust / MAX_THRUST) * 100.0) def uiSetupReady(self): flightComboIndex = self.flightModeCombo.findText( Config().get("flightmode"), Qt.MatchFixedString) if (flightComboIndex < 0): self.flightModeCombo.setCurrentIndex(0) self.flightModeCombo.currentIndexChanged.emit(0) else: self.flightModeCombo.setCurrentIndex(flightComboIndex) self.flightModeCombo.currentIndexChanged.emit(flightComboIndex) def _logging_error(self, log_conf, msg): QMessageBox.about( self, "Log error", "Error when starting log config" " [%s]: %s" % (log_conf.name, msg)) def _motor_data_received(self, timestamp, data, logconf): if self.isVisible(): self.actualM1.setValue(data["motor.m1"]) self.actualM2.setValue(data["motor.m2"]) self.actualM3.setValue(data["motor.m3"]) self.actualM4.setValue(data["motor.m4"]) def _baro_data_received(self, timestamp, data, logconf): if self.isVisible(): self.actualASL.setText(("%.2f" % data["baro.aslLong"])) self.ai.setBaro(data["baro.aslLong"]) def _althold_data_received(self, timestamp, data, logconf): if self.isVisible(): target = data["altHold.target"] if target > 0: if not self.targetASL.isEnabled(): self.targetASL.setEnabled(True) self.targetASL.setText(("%.2f" % target)) self.ai.setHover(target) elif self.targetASL.isEnabled(): self.targetASL.setEnabled(False) self.targetASL.setText("Not set") self.ai.setHover(0) def _imu_data_received(self, timestamp, data, logconf): if self.isVisible(): self.actualRoll.setText(("%.2f" % data["stabilizer.roll"])) self.actualPitch.setText(("%.2f" % data["stabilizer.pitch"])) self.actualYaw.setText(("%.2f" % data["stabilizer.yaw"])) self.actualThrust.setText( "%.2f%%" % self.thrustToPercentage(data["stabilizer.thrust"])) self.ai.setRollPitch(-data["stabilizer.roll"], data["stabilizer.pitch"]) def connected(self, linkURI): # IMU & THRUST lg = LogConfig("Stabalizer", Config().get("ui_update_period")) lg.add_variable("stabilizer.roll", "float") lg.add_variable("stabilizer.pitch", "float") lg.add_variable("stabilizer.yaw", "float") lg.add_variable("stabilizer.thrust", "uint16_t") try: self.helper.cf.log.add_config(lg) lg.data_received_cb.add_callback(self._imu_data_signal.emit) lg.error_cb.add_callback(self._log_error_signal.emit) lg.start() except KeyError as e: logger.warning(str(e)) except AttributeError as e: logger.warning(str(e)) # MOTOR lg = LogConfig("Motors", Config().get("ui_update_period")) lg.add_variable("motor.m1") lg.add_variable("motor.m2") lg.add_variable("motor.m3") lg.add_variable("motor.m4") try: self.helper.cf.log.add_config(lg) lg.data_received_cb.add_callback(self._motor_data_signal.emit) lg.error_cb.add_callback(self._log_error_signal.emit) lg.start() except KeyError as e: logger.warning(str(e)) except AttributeError as e: logger.warning(str(e)) if self.helper.cf.mem.ow_search(vid=0xBC, pid=0x01): self._led_ring_effect.setEnabled(True) self._led_ring_headlight.setEnabled(True) def _set_available_sensors(self, name, available): logger.info("[%s]: %s", name, available) available = eval(available) if ("HMC5883L" in name): if (not available): self.actualASL.setText("N/A") self.actualASL.setEnabled(False) else: self.actualASL.setEnabled(True) self.helper.inputDeviceReader.set_alt_hold_available(available) if (not self.logBaro and not self.logAltHold): # The sensor is available, set up the logging self.logBaro = LogConfig("Baro", 200) self.logBaro.add_variable("baro.aslLong", "float") try: self.helper.cf.log.add_config(self.logBaro) self.logBaro.data_received_cb.add_callback( self._baro_data_signal.emit) self.logBaro.error_cb.add_callback( self._log_error_signal.emit) self.logBaro.start() except KeyError as e: logger.warning(str(e)) except AttributeError as e: logger.warning(str(e)) self.logAltHold = LogConfig("AltHold", 200) self.logAltHold.add_variable("altHold.target", "float") try: self.helper.cf.log.add_config(self.logAltHold) self.logAltHold.data_received_cb.add_callback( self._althold_data_signal.emit) self.logAltHold.error_cb.add_callback( self._log_error_signal.emit) self.logAltHold.start() except KeyError as e: logger.warning(str(e)) except AttributeError: logger.warning(str(e)) def disconnected(self, linkURI): self.ai.setRollPitch(0, 0) self.actualM1.setValue(0) self.actualM2.setValue(0) self.actualM3.setValue(0) self.actualM4.setValue(0) self.actualRoll.setText("") self.actualPitch.setText("") self.actualYaw.setText("") self.actualThrust.setText("") self.actualASL.setText("") self.targetASL.setText("Not Set") self.targetASL.setEnabled(False) self.actualASL.setEnabled(False) self.logBaro = None self.logAltHold = None self._led_ring_effect.setEnabled(False) self._led_ring_headlight.setEnabled(False) def minMaxThrustChanged(self): self.helper.inputDeviceReader.set_thrust_limits( self.minThrust.value(), self.maxThrust.value()) if (self.isInCrazyFlightmode == True): Config().set("min_thrust", self.minThrust.value()) Config().set("max_thrust", self.maxThrust.value()) def thrustLoweringSlewRateLimitChanged(self): self.helper.inputDeviceReader.set_thrust_slew_limiting( self.thrustLoweringSlewRateLimit.value(), self.slewEnableLimit.value()) if (self.isInCrazyFlightmode == True): Config().set("slew_limit", self.slewEnableLimit.value()) Config().set("slew_rate", self.thrustLoweringSlewRateLimit.value()) def maxYawRateChanged(self): logger.debug("MaxYawrate changed to %d", self.maxYawRate.value()) self.helper.inputDeviceReader.set_yaw_limit(self.maxYawRate.value()) if (self.isInCrazyFlightmode == True): Config().set("max_yaw", self.maxYawRate.value()) def maxAngleChanged(self): logger.debug("MaxAngle changed to %d", self.maxAngle.value()) self.helper.inputDeviceReader.set_rp_limit(self.maxAngle.value()) if (self.isInCrazyFlightmode == True): Config().set("max_rp", self.maxAngle.value()) def _trim_pitch_changed(self, value): logger.debug("Pitch trim updated to [%f]" % value) self.helper.inputDeviceReader.set_trim_pitch(value) Config().set("trim_pitch", value) def _trim_roll_changed(self, value): logger.debug("Roll trim updated to [%f]" % value) self.helper.inputDeviceReader.set_trim_roll(value) Config().set("trim_roll", value) def calUpdateFromInput(self, rollCal, pitchCal): logger.debug("Trim changed on joystick: roll=%.2f, pitch=%.2f", rollCal, pitchCal) self.targetCalRoll.setValue(rollCal) self.targetCalPitch.setValue(pitchCal) def updateInputControl(self, roll, pitch, yaw, thrust): self.targetRoll.setText(("%0.2f" % roll)) self.targetPitch.setText(("%0.2f" % pitch)) self.targetYaw.setText(("%0.2f" % yaw)) self.targetThrust.setText( ("%0.2f %%" % self.thrustToPercentage(thrust))) self.thrustProgress.setValue(thrust) def setMotorLabelsEnabled(self, enabled): self.M1label.setEnabled(enabled) self.M2label.setEnabled(enabled) self.M3label.setEnabled(enabled) self.M4label.setEnabled(enabled) def emergencyStopStringWithText(self, text): return ("<html><head/><body><p>" "<span style='font-weight:600; color:#7b0005;'>{}</span>" "</p></body></html>".format(text)) def updateEmergencyStop(self, emergencyStop): if emergencyStop: self.setMotorLabelsEnabled(False) self.emergency_stop_label.setText( self.emergencyStopStringWithText("Kill switch active")) else: self.setMotorLabelsEnabled(True) self.emergency_stop_label.setText("") def flightmodeChange(self, item): Config().set("flightmode", str(self.flightModeCombo.itemText(item))) logger.debug("Changed flightmode to %s", self.flightModeCombo.itemText(item)) self.isInCrazyFlightmode = False if (item == 0): # Normal self.maxAngle.setValue(Config().get("normal_max_rp")) self.maxThrust.setValue(Config().get("normal_max_thrust")) self.minThrust.setValue(Config().get("normal_min_thrust")) self.slewEnableLimit.setValue(Config().get("normal_slew_limit")) self.thrustLoweringSlewRateLimit.setValue( Config().get("normal_slew_rate")) self.maxYawRate.setValue(Config().get("normal_max_yaw")) if (item == 1): # Advanced self.maxAngle.setValue(Config().get("max_rp")) self.maxThrust.setValue(Config().get("max_thrust")) self.minThrust.setValue(Config().get("min_thrust")) self.slewEnableLimit.setValue(Config().get("slew_limit")) self.thrustLoweringSlewRateLimit.setValue( Config().get("slew_rate")) self.maxYawRate.setValue(Config().get("max_yaw")) self.isInCrazyFlightmode = True if (item == 0): newState = False else: newState = True self.maxThrust.setEnabled(newState) self.maxAngle.setEnabled(newState) self.minThrust.setEnabled(newState) self.thrustLoweringSlewRateLimit.setEnabled(newState) self.slewEnableLimit.setEnabled(newState) self.maxYawRate.setEnabled(newState) @pyqtSlot(bool) def changeXmode(self, checked): self.helper.cf.commander.set_client_xmode(checked) Config().set("client_side_xmode", checked) logger.info("Clientside X-mode enabled: %s", checked) def alt1_updated(self, state): if state: self._ring_effect += 1 if self._ring_effect > self._ledring_nbr_effects: self._ring_effect = 0 self.helper.cf.param.set_value("ring.effect", str(self._ring_effect)) def alt2_updated(self, state): self.helper.cf.param.set_value("ring.headlightEnable", str(state)) def _ring_populate_dropdown(self): nbr = int(self.helper.cf.param.values["ring"]["neffect"]) current = int(self.helper.cf.param.values["ring"]["effect"]) hardcoded_names = { 0: "Off", 1: "White spinner", 2: "Color spinner", 3: "Tilt effect", 4: "Brightness effect", 5: "Color spinner 2", 6: "Double spinner", 7: "Solid color effect", 8: "Factory test", 9: "Battery status", 10: "Boat lights" } for i in range(nbr + 1): name = "{}: ".format(i) if i in hardcoded_names: name += hardcoded_names[i] else: name += "N/A" self._led_ring_effect.addItem(name, QVariant(i)) self._led_ring_effect.setCurrentIndex(current) self._led_ring_effect.currentIndexChanged.connect( self._ring_effect_changed) self.helper.cf.param.add_update_callback(group="ring", name="effect", cb=self._ring_effect_updated) def _ring_effect_changed(self, index): i = self._led_ring_effect.itemData(index).toInt()[0] logger.info("Changed effect to {}".format(i)) if i != self.helper.cf.param.values["ring"]["effect"]: self.helper.cf.param.set_value("ring.effect", str(i)) def _ring_effect_updated(self, name, value): self._led_ring_effect.setCurrentIndex(int(value))
class FlightTab(Tab, flight_tab_class): uiSetupReadySignal = pyqtSignal() _motor_data_signal = pyqtSignal(object) _imu_data_signal = pyqtSignal(object) _input_updated_signal = pyqtSignal(float, float, float, float) _rp_trim_updated_signal = pyqtSignal(float, float) _emergency_stop_updated_signal = pyqtSignal(bool) UI_DATA_UPDATE_FPS = 10 connectionFinishedSignal = pyqtSignal(str) disconnectedSignal = pyqtSignal(str) def __init__(self, tabWidget, helper, *args): super(FlightTab, self).__init__(*args) self.setupUi(self) self.tabName = "Flight Control" self.menuName = "Flight Control" self.tabWidget = tabWidget self.helper = helper self.disconnectedSignal.connect(self.disconnected) self.connectionFinishedSignal.connect(self.connected) # Incomming signals self.helper.cf.connectSetupFinished.add_callback( self.connectionFinishedSignal.emit) self.helper.cf.disconnected.add_callback(self.disconnectedSignal.emit) self._input_updated_signal.connect(self.updateInputControl) self.helper.inputDeviceReader.input_updated.add_callback( self._input_updated_signal.emit) self._rp_trim_updated_signal.connect(self.calUpdateFromInput) self.helper.inputDeviceReader.rp_trim_updated.add_callback( self._rp_trim_updated_signal) self._emergency_stop_updated_signal.connect(self.updateEmergencyStop) self.helper.inputDeviceReader.emergency_stop_updated.add_callback( self._emergency_stop_updated_signal.emit) self._imu_data_signal.connect(self._imu_data_received) self._motor_data_signal.connect(self._motor_data_received) # Connect UI signals that are in this tab self.flightModeCombo.currentIndexChanged.connect(self.flightmodeChange) self.minThrust.valueChanged.connect(self.minMaxThrustChanged) self.maxThrust.valueChanged.connect(self.minMaxThrustChanged) self.thrustLoweringSlewRateLimit.valueChanged.connect( self.thrustLoweringSlewRateLimitChanged) self.slewEnableLimit.valueChanged.connect( self.thrustLoweringSlewRateLimitChanged) self.targetCalRoll.valueChanged.connect(self._trim_roll_changed) self.targetCalPitch.valueChanged.connect(self._trim_pitch_changed) self.maxAngle.valueChanged.connect(self.maxAngleChanged) self.maxYawRate.valueChanged.connect(self.maxYawRateChanged) self.uiSetupReadySignal.connect(self.uiSetupReady) self.clientXModeCheckbox.toggled.connect(self.changeXmode) self.isInCrazyFlightmode = False self.uiSetupReady() self.clientXModeCheckbox.setChecked(GuiConfig().get("client_side_xmode")) self.crazyflieXModeCheckbox.clicked.connect( lambda enabled: self.helper.cf.param.set_value("flightctrl.xmode", str(enabled))) self.helper.cf.param.add_update_callback( "flightctrl.xmode", lambda name, checked: self.crazyflieXModeCheckbox.setChecked(eval(checked))) self.ratePidRadioButton.clicked.connect( lambda enabled: self.helper.cf.param.set_value("flightctrl.ratepid", str(enabled))) self.angularPidRadioButton.clicked.connect( lambda enabled: self.helper.cf.param.set_value("flightctrl.ratepid", str(not enabled))) self.helper.cf.param.add_update_callback("flightctrl.ratepid", lambda name, checked: self.ratePidRadioButton.setChecked(eval(checked))) self.ai = AttitudeIndicator() self.gridLayout.addWidget(self.ai, 0, 1) self.targetCalPitch.setValue(GuiConfig().get("trim_pitch")) self.targetCalRoll.setValue(GuiConfig().get("trim_roll")) def thrustToPercentage(self, thrust): return ((thrust / MAX_THRUST) * 100.0) def percentageToThrust(self, percentage): return int(MAX_THRUST * (percentage / 100.0)) def uiSetupReady(self): flightComboIndex = self.flightModeCombo.findText( GuiConfig().get("flightmode"), Qt.MatchFixedString) if (flightComboIndex < 0): self.flightModeCombo.setCurrentIndex(0) self.flightModeCombo.currentIndexChanged.emit(0) else: self.flightModeCombo.setCurrentIndex(flightComboIndex) self.flightModeCombo.currentIndexChanged.emit(flightComboIndex) def loggingError(self): logger.warning("Callback of error in LogEntry :(") def _motor_data_received(self, data): self.actualM1.setValue(data["motor.m1"]) self.actualM2.setValue(data["motor.m2"]) self.actualM3.setValue(data["motor.m3"]) self.actualM4.setValue(data["motor.m4"]) def _imu_data_received(self, data): self.actualRoll.setText(("%.2f" % data["stabilizer.roll"])) self.actualPitch.setText(("%.2f" % data["stabilizer.pitch"])) self.actualYaw.setText(("%.2f" % data["stabilizer.yaw"])) self.actualThrust.setText("%.2f%%" % self.thrustToPercentage( data["stabilizer.thrust"])) self.ai.setRollPitch(-data["stabilizer.roll"], data["stabilizer.pitch"]) def connected(self, linkURI): lg = LogConfig("Stabalizer", 100) lg.addVariable(LogVariable("stabilizer.roll", "float")) lg.addVariable(LogVariable("stabilizer.pitch", "float")) lg.addVariable(LogVariable("stabilizer.yaw", "float")) lg.addVariable(LogVariable("stabilizer.thrust", "uint16_t")) self.log = self.helper.cf.log.create_log_packet(lg) if (self.log is not None): self.log.dataReceived.add_callback(self._imu_data_signal.emit) self.log.error.add_callback(self.loggingError) self.log.start() else: logger.warning("Could not setup logconfiguration after " "connection!") lg = LogConfig("Motors", 100) lg.addVariable(LogVariable("motor.m1", "uint32_t")) lg.addVariable(LogVariable("motor.m2", "uint32_t")) lg.addVariable(LogVariable("motor.m3", "uint32_t")) lg.addVariable(LogVariable("motor.m4", "uint32_t")) self.log = self.helper.cf.log.create_log_packet(lg) if (self.log is not None): self.log.dataReceived.add_callback(self._motor_data_signal.emit) self.log.error.add_callback(self.loggingError) self.log.start() else: logger.warning("Could not setup logconfiguration after " "connection!") def disconnected(self, linkURI): self.ai.setRollPitch(0, 0) self.actualM1.setValue(0) self.actualM2.setValue(0) self.actualM3.setValue(0) self.actualM4.setValue(0) self.actualRoll.setText("") self.actualPitch.setText("") self.actualYaw.setText("") self.actualThrust.setText("") def minMaxThrustChanged(self): self.helper.inputDeviceReader.set_thrust_limits( self.percentageToThrust(self.minThrust.value()), self.percentageToThrust(self.maxThrust.value())) if (self.isInCrazyFlightmode == True): GuiConfig().set("min_thrust", self.minThrust.value()) GuiConfig().set("max_thrust", self.maxThrust.value()) def thrustLoweringSlewRateLimitChanged(self): self.helper.inputDeviceReader.set_thrust_slew_limiting( self.percentageToThrust(self.thrustLoweringSlewRateLimit.value()), self.percentageToThrust( self.slewEnableLimit.value())) if (self.isInCrazyFlightmode == True): GuiConfig().set("slew_limit", self.slewEnableLimit.value()) GuiConfig().set("slew_rate", self.thrustLoweringSlewRateLimit.value()) def maxYawRateChanged(self): logger.debug("MaxYawrate changed to %d", self.maxYawRate.value()) self.helper.inputDeviceReader.set_yaw_limit(self.maxYawRate.value()) if (self.isInCrazyFlightmode == True): GuiConfig().set("max_yaw", self.maxYawRate.value()) def maxAngleChanged(self): logger.debug("MaxAngle changed to %d", self.maxAngle.value()) self.helper.inputDeviceReader.set_rp_limit(self.maxAngle.value()) if (self.isInCrazyFlightmode == True): GuiConfig().set("max_rp", self.maxAngle.value()) def _trim_pitch_changed(self, value): logger.debug("Pitch trim updated to [%f]" % value) self.helper.inputDeviceReader.set_trim_pitch(value) GuiConfig().set("trim_pitch", value) def _trim_roll_changed(self, value): logger.debug("Roll trim updated to [%f]" % value) self.helper.inputDeviceReader.set_trim_roll(value) GuiConfig().set("trim_roll", value) def calUpdateFromInput(self, rollCal, pitchCal): logger.debug("Trim changed on joystick: roll=%.2f, pitch=%.2f", rollCal, pitchCal) self.targetCalRoll.setValue(rollCal) self.targetCalPitch.setValue(pitchCal) def updateInputControl(self, roll, pitch, yaw, thrust): self.targetRoll.setText(("%0.2f" % roll)) self.targetPitch.setText(("%0.2f" % pitch)) self.targetYaw.setText(("%0.2f" % yaw)) self.targetThrust.setText(("%0.2f %%" % self.thrustToPercentage(thrust))) self.thrustProgress.setValue(thrust) def setMotorLabelsEnabled(self, enabled): self.M1label.setEnabled(enabled) self.M2label.setEnabled(enabled) self.M3label.setEnabled(enabled) self.M4label.setEnabled(enabled) def emergencyStopStringWithText(self, text): return ("<html><head/><body><p>" "<span style='font-weight:600; color:#7b0005;'>{}</span>" "</p></body></html>".format(text)) def updateEmergencyStop(self, emergencyStop): if emergencyStop: self.setMotorLabelsEnabled(False) self.emergency_stop_label.setText( self.emergencyStopStringWithText("Kill switch active")) else: self.setMotorLabelsEnabled(True) self.emergency_stop_label.setText("") def flightmodeChange(self, item): GuiConfig().set("flightmode", self.flightModeCombo.itemText(item)) logger.info("Changed flightmode to %s", self.flightModeCombo.itemText(item)) self.isInCrazyFlightmode = False if (item == 0): # Normal self.maxAngle.setValue(GuiConfig().get("normal_max_rp")) self.maxThrust.setValue(GuiConfig().get("normal_max_thrust")) self.minThrust.setValue(GuiConfig().get("normal_min_thrust")) self.slewEnableLimit.setValue(GuiConfig().get("normal_slew_limit")) self.thrustLoweringSlewRateLimit.setValue( GuiConfig().get("normal_slew_rate")) self.maxYawRate.setValue(GuiConfig().get("normal_max_yaw")) if (item == 1): # Advanced self.maxAngle.setValue(GuiConfig().get("max_rp")) self.maxThrust.setValue(GuiConfig().get("max_thrust")) self.minThrust.setValue(GuiConfig().get("min_thrust")) self.slewEnableLimit.setValue(GuiConfig().get("slew_limit")) self.thrustLoweringSlewRateLimit.setValue( GuiConfig().get("slew_rate")) self.maxYawRate.setValue(GuiConfig().get("max_yaw")) self.isInCrazyFlightmode = True if (item == 0): newState = False else: newState = True self.maxThrust.setEnabled(newState) self.maxAngle.setEnabled(newState) self.minThrust.setEnabled(newState) self.thrustLoweringSlewRateLimit.setEnabled(newState) self.slewEnableLimit.setEnabled(newState) self.maxYawRate.setEnabled(newState) @pyqtSlot(bool) def changeXmode(self, checked): self.helper.cf.commander.set_client_xmode(checked) GuiConfig().set("client_side_xmode", checked) logger.info("Clientside X-mode enabled: %s", checked)
class AutoFlightTab(Tab, flight_tab_class): uiSetupReadySignal = pyqtSignal() _motor_data_signal = pyqtSignal(object) _imu_data_signal = pyqtSignal(object) UI_DATA_UPDATE_FPS = 10 connectionFinishedSignal = pyqtSignal(str) disconnectedSignal = pyqtSignal(str) def __init__(self, tabWidget, helper, *args): super(AutoFlightTab, self).__init__(*args) self.setupUi(self) global TheTab, natnet, copter TheTab = self self.tabName = "Auto Flight Control" self.menuName = "Auto Flight Control" self.tabWidget = tabWidget self.helper = helper self.disconnectedSignal.connect(self.disconnected) self.connectionFinishedSignal.connect(self.connected) # Incomming signals self.helper.cf.connectSetupFinished.add_callback( self.connectionFinishedSignal.emit) self.helper.cf.disconnected.add_callback(self.disconnectedSignal.emit) self.helper.inputDeviceReader.inputUpdateSignal.connect( self.updateInputControl) self.helper.inputDeviceReader.calUpdateSignal.connect( self.calUpdateFromInput) self.helper.inputDeviceReader.emergencyStopSignal.connect( self.updateEmergencyStop) self._imu_data_signal.connect(self._imu_data_received) self._motor_data_signal.connect(self._motor_data_received) # Connect UI signals that are in this tab self.flightModeCombo.currentIndexChanged.connect(self.flightmodeChange) self.minThrust.valueChanged.connect(self.minMaxThrustChanged) self.maxThrust.valueChanged.connect(self.minMaxThrustChanged) self.thrustLoweringSlewRateLimit.valueChanged.connect( self.thrustLoweringSlewRateLimitChanged) self.slewEnableLimit.valueChanged.connect( self.thrustLoweringSlewRateLimitChanged) self.targetCalRoll.valueChanged.connect(self._trim_roll_changed) self.targetCalPitch.valueChanged.connect(self._trim_pitch_changed) self.maxAngle.valueChanged.connect(self.maxAngleChanged) self.maxYawRate.valueChanged.connect(self.maxYawRateChanged) self.uiSetupReadySignal.connect(self.uiSetupReady) self.clientXModeCheckbox.toggled.connect(self.changeXmode) self.isInCrazyFlightmode = False self.uiSetupReady() self.clientXModeCheckbox.setChecked(Config().get("client_side_xmode")) self.crazyflieXModeCheckbox.clicked.connect( lambda enabled: self.helper.cf.param.set_value( "flightctrl.xmode", str(enabled))) self.helper.cf.param.add_update_callback( "flightctrl.xmode", lambda name, checked: self.crazyflieXModeCheckbox.setChecked( eval(checked))) self.ratePidRadioButton.clicked.connect( lambda enabled: self.helper.cf.param.set_value( "flightctrl.ratepid", str(enabled))) self.angularPidRadioButton.clicked.connect( lambda enabled: self.helper.cf.param.set_value( "flightctrl.ratepid", str(not enabled))) self.helper.cf.param.add_update_callback( "flightctrl.ratepid", lambda name, checked: self.ratePidRadioButton.setChecked( eval(checked))) self.ai = AttitudeIndicator() self.gridLayout.addWidget(self.ai, 0, 1) self.targetCalPitch.setValue(Config().get("trim_pitch")) self.targetCalRoll.setValue(Config().get("trim_roll")) """ ADDITION: automode ui """ self.automodeCheckBox.toggled.connect(self.changeAutoMode) self.loopmodeCheckBox.toggled.connect(self.changeLoopMode) self.followmodeCheckBox.toggled.connect(self.changeFollowMode) self.launchButton.clicked.connect(self.launchButtonClicked) self.upButton.clicked.connect(self.upButtonClicked) self.downButton.clicked.connect(self.downButtonClicked) self.frontButton.clicked.connect(self.frontButtonClicked) self.backButton.clicked.connect(self.backButtonClicked) self.rightButton.clicked.connect(self.rightButtonClicked) self.leftButton.clicked.connect(self.leftButtonClicked) self.setAButton.clicked.connect(self.setAButtonClicked) self.setBButton.clicked.connect(self.setBButtonClicked) self.goAButton.clicked.connect(self.goAButtonClicked) self.goBButton.clicked.connect(self.goBButtonClicked) self.neutralThrustBox.valueChanged.connect(self.neutralThrustChanged) self.thrustScaleBox.valueChanged.connect(self.thrustScaleChanged) self.horzScaleBox.valueChanged.connect(self.horzScaleChanged) self.velocityScaleBox.valueChanged.connect(self.velocityScaleChanged) self.velocitySmoothBox.valueChanged.connect(self.velocitySmoothChanged) self.lastUIUpdate = time() """ ADDITION: replace joy stick object's input device with our wrapper class """ print "AutoFlightTab wrapping device" d = self.helper.inputDeviceReader.inputdevice w = DeviceWrapper(d) w.automode = False self.helper.inputDeviceReader.inputdevice = w """ ADDITION: initialize tracker fields of interface """ self.position.setText("received tracker position") self.orientation.setText("received tracker orientation") """ ADDITION: create thread to run command socket """ cmdthread = threading.Thread(target=natnet.manage_cmd_socket, args=[copter]) # cmdthread = threading.Thread(None, manage_cmd_socket, None) cmdthread.setDaemon(True) cmdthread.start() """ ADDITION: automode ui methods """ @pyqtSlot(bool) def changeAutoMode(self, checked): print "changeAutoMode", checked # self.helper.inputDeviceReader.inputdevice.automode = checked @pyqtSlot(bool) def changeLoopMode(self, checked): print "changeLoopMode", checked global copter copter.loopmode = checked @pyqtSlot(bool) def changeFollowMode(self, checked): print "changeFollowMode", checked global copter copter.followmode = checked @pyqtSlot() def launchButtonClicked(self): global copter print "launchButtonClicked tracker:", copter.trackerPosition copter.yawOffset = copter.trackerYPR[0] - copter.lastyaw copter.updateTarget(copter.trackerPosition + Vector((0, 0.2, 0))) print "yawOffset:", copter.yawOffset print "target:", copter.targetPosition self.helper.inputDeviceReader.inputdevice.automode = not self.helper.inputDeviceReader.inputdevice.automode @pyqtSlot() def upButtonClicked(self): global copter print "upButtonClicked tracker:", copter.trackerPosition copter.updateTarget(copter.targetPosition + Vector((0, 0.1, 0))) print "target:", copter.targetPosition @pyqtSlot() def downButtonClicked(self): global copter print "downButtonClicked tracker:", copter.trackerPosition copter.updateTarget(copter.targetPosition + Vector((0, -0.1, 0))) print "target:", copter.targetPosition @pyqtSlot() def frontButtonClicked(self): global copter print "frontButtonClicked tracker:", copter.trackerPosition copter.updateTarget(copter.targetPosition + Vector((0, 0, 0.1))) print "target:", copter.targetPosition @pyqtSlot() def backButtonClicked(self): global copter print "backButtonClicked tracker:", copter.trackerPosition copter.updateTarget(copter.targetPosition + Vector((0, 0, -0.1))) print "target:", copter.targetPosition @pyqtSlot() def rightButtonClicked(self): global copter print "rightButtonClicked tracker:", copter.trackerPosition copter.updateTarget(copter.targetPosition + Vector((-0.1, 0, 0))) print "target:", copter.targetPosition @pyqtSlot() def leftButtonClicked(self): global copter print "leftButtonClicked tracker:", copter.trackerPosition copter.updateTarget(copter.targetPosition + Vector((0.1, 0, 0))) print "target:", copter.targetPosition @pyqtSlot() def setAButtonClicked(self): global copter print "setAButtonClicked tracker:", copter.targetPosition copter.pointA = copter.targetPosition print "pointA:", copter.pointA @pyqtSlot() def setBButtonClicked(self): global copter print "setBButtonClicked tracker:", copter.targetPosition copter.pointB = copter.targetPosition print "pointB:", copter.pointB @pyqtSlot() def goAButtonClicked(self): global copter print "goAButtonClicked" global teleLog teleLog.startLog() copter.updateTarget(copter.pointA) @pyqtSlot() def goBButtonClicked(self): global copter print "goBButtonClicked" global teleLog teleLog.startLog() copter.updateTarget(copter.pointB) @pyqtSlot() def neutralThrustChanged(self): print "neutralThrustChanged", self.neutralThrustBox.value() global copter copter.neutralThrust = self.neutralThrustBox.value() @pyqtSlot() def thrustScaleChanged(self): print "thrustScaleChanged", self.thrustScaleBox.value() global copter copter.thrustScale = self.thrustScaleBox.value() @pyqtSlot() def horzScaleChanged(self): print "horzScaleChanged", self.horzScaleBox.value() global copter copter.horzScale = self.horzScaleBox.value() @pyqtSlot() def velocityScaleChanged(self): print "velocityScaleChanged", self.velocityScaleBox.value() global copter copter.velocityScale = self.velocityScaleBox.value() @pyqtSlot() def velocitySmoothChanged(self): print "velocitySmoothChanged", self.velocitySmoothBox.value() global copter copter.velocitySmooth = self.velocitySmoothBox.value() """ original """ def thrustToPercentage(self, thrust): return ((thrust / MAX_THRUST) * 100.0) def percentageToThrust(self, percentage): return int(MAX_THRUST * (percentage / 100.0)) def uiSetupReady(self): flightComboIndex = self.flightModeCombo.findText( Config().get("flightmode"), Qt.MatchFixedString) if (flightComboIndex < 0): self.flightModeCombo.setCurrentIndex(0) self.flightModeCombo.currentIndexChanged.emit(0) else: self.flightModeCombo.setCurrentIndex(flightComboIndex) self.flightModeCombo.currentIndexChanged.emit(flightComboIndex) def loggingError(self): logger.warning("Callback of error in LogEntry :(") def _motor_data_received(self, data): self.actualM1.setValue(data["motor.m1"]) self.actualM2.setValue(data["motor.m2"]) self.actualM3.setValue(data["motor.m3"]) self.actualM4.setValue(data["motor.m4"]) def _imu_data_received(self, data): self.actualRoll.setText(("%.2f" % data["stabilizer.roll"])) self.actualPitch.setText(("%.2f" % data["stabilizer.pitch"])) self.actualYaw.setText(("%.2f" % data["stabilizer.yaw"])) self.actualThrust.setText( "%.2f%%" % self.thrustToPercentage(data["stabilizer.thrust"])) self.ai.setRollPitch(-data["stabilizer.roll"], data["stabilizer.pitch"]) """ ADDITION save reported yaw for coord conversion - ? is there some other way to get this ? """ global copter copter.lastyaw = data["stabilizer.yaw"] def connected(self, linkURI): lg = LogConfig("Stabalizer", 100) lg.addVariable(LogVariable("stabilizer.roll", "float")) lg.addVariable(LogVariable("stabilizer.pitch", "float")) lg.addVariable(LogVariable("stabilizer.yaw", "float")) lg.addVariable(LogVariable("stabilizer.thrust", "uint16_t")) self.log = self.helper.cf.log.create_log_packet(lg) if (self.log is not None): self.log.dataReceived.add_callback(self._imu_data_signal.emit) self.log.error.add_callback(self.loggingError) self.log.start() else: logger.warning("Could not setup logconfiguration after " "connection!") lg = LogConfig("Motors", 100) lg.addVariable(LogVariable("motor.m1", "uint32_t")) lg.addVariable(LogVariable("motor.m2", "uint32_t")) lg.addVariable(LogVariable("motor.m3", "uint32_t")) lg.addVariable(LogVariable("motor.m4", "uint32_t")) self.log = self.helper.cf.log.create_log_packet(lg) if (self.log is not None): self.log.dataReceived.add_callback(self._motor_data_signal.emit) self.log.error.add_callback(self.loggingError) self.log.start() else: logger.warning("Could not setup logconfiguration after " "connection!") def disconnected(self, linkURI): self.ai.setRollPitch(0, 0) self.actualM1.setValue(0) self.actualM2.setValue(0) self.actualM3.setValue(0) self.actualM4.setValue(0) self.actualRoll.setText("") self.actualPitch.setText("") self.actualYaw.setText("") self.actualThrust.setText("") def minMaxThrustChanged(self): self.helper.inputDeviceReader.updateMinMaxThrustSignal.emit( self.percentageToThrust(self.minThrust.value()), self.percentageToThrust(self.maxThrust.value())) if (self.isInCrazyFlightmode == True): Config().set("min_thrust", self.minThrust.value()) Config().set("max_thrust", self.maxThrust.value()) def thrustLoweringSlewRateLimitChanged(self): self.helper.inputDeviceReader.updateThrustLoweringSlewrateSignal.emit( self.percentageToThrust(self.thrustLoweringSlewRateLimit.value()), self.percentageToThrust(self.slewEnableLimit.value())) if (self.isInCrazyFlightmode == True): Config().set("slew_limit", self.slewEnableLimit.value()) Config().set("slew_rate", self.thrustLoweringSlewRateLimit.value()) def maxYawRateChanged(self): logger.debug("MaxYawrate changed to %d", self.maxYawRate.value()) self.helper.inputDeviceReader.updateMaxYawRateSignal.emit( self.maxYawRate.value()) if (self.isInCrazyFlightmode == True): Config().set("max_yaw", self.maxYawRate.value()) def maxAngleChanged(self): logger.debug("MaxAngle changed to %d", self.maxAngle.value()) self.helper.inputDeviceReader.updateMaxRPAngleSignal.emit( self.maxAngle.value()) if (self.isInCrazyFlightmode == True): Config().set("max_rp", self.maxAngle.value()) def _trim_pitch_changed(self, value): logger.debug("Pitch trim updated to [%f]" % value) self.helper.inputDeviceReader.update_trim_pitch_signal.emit(value) Config().set("trim_pitch", value) def _trim_roll_changed(self, value): logger.debug("Roll trim updated to [%f]" % value) self.helper.inputDeviceReader.update_trim_roll_signal.emit(value) Config().set("trim_roll", value) def calUpdateFromInput(self, rollCal, pitchCal): logger.debug("Trim changed on joystick: roll=%.2f, pitch=%.2f", rollCal, pitchCal) self.targetCalRoll.setValue(rollCal) self.targetCalPitch.setValue(pitchCal) def updateInputControl(self, roll, pitch, yaw, thrust): now = time() if (now - self.lastUIUpdate < 0.1): return self.lastUIUpdate = now self.targetRoll.setText(("%0.2f" % roll)) self.targetPitch.setText(("%0.2f" % pitch)) self.targetYaw.setText(("%0.2f" % yaw)) self.targetThrust.setText( ("%0.2f %%" % self.thrustToPercentage(thrust))) self.thrustProgress.setValue(thrust) """ ADDITION: update display with latest tracker coordinate """ global copter self.position.setText("%.3f %.3f %.3f" % copter.trackerPosition) # self.orientation.setText("%.3f %.3f %.3f %.3f" % copter.trackerOrientation) self.orientation.setText("y: %.1f p: %.1f r: %.1f" % copter.trackerYPR) self.velocity.setText("%.4f %.4f %.4f" % copter.velocity) self.target.setText("%.3f %.3f %.3f" % copter.targetPosition) if (copter.activePointer): self.pointer.setText("%.3f %.3f %.3f" % copter.pointerPosition) else: self.pointer.setText("none") self.RigidCnt.setText("%d" % copter.rigidCnt) self.SinglesCnt.setText("%d" % copter.singlesCnt) self.UpdateRate.setText("%.1f / sec" % copter.updateRate()) def setMotorLabelsEnabled(self, enabled): self.M1label.setEnabled(enabled) self.M2label.setEnabled(enabled) self.M3label.setEnabled(enabled) self.M4label.setEnabled(enabled) def emergencyStopStringWithText(self, text): return ("<html><head/><body><p>" "<span style='font-weight:600; color:#7b0005;'>{}</span>" "</p></body></html>".format(text)) def updateEmergencyStop(self, emergencyStop): if emergencyStop: self.setMotorLabelsEnabled(False) self.emergency_stop_label.setText( self.emergencyStopStringWithText("Kill switch active")) else: self.setMotorLabelsEnabled(True) self.emergency_stop_label.setText("") def flightmodeChange(self, item): Config().set("flightmode", self.flightModeCombo.itemText(item)) logger.info("Changed flightmode to %s", self.flightModeCombo.itemText(item)) self.isInCrazyFlightmode = False if (item == 0): # Normal self.maxAngle.setValue(Config().get("normal_max_rp")) self.maxThrust.setValue(Config().get("normal_max_thrust")) self.minThrust.setValue(Config().get("normal_min_thrust")) self.slewEnableLimit.setValue(Config().get("normal_slew_limit")) self.thrustLoweringSlewRateLimit.setValue( Config().get("normal_slew_rate")) self.maxYawRate.setValue(Config().get("normal_max_yaw")) if (item == 1): # Advanced self.maxAngle.setValue(Config().get("max_rp")) self.maxThrust.setValue(Config().get("max_thrust")) self.minThrust.setValue(Config().get("min_thrust")) self.slewEnableLimit.setValue(Config().get("slew_limit")) self.thrustLoweringSlewRateLimit.setValue( Config().get("slew_rate")) self.maxYawRate.setValue(Config().get("max_yaw")) self.isInCrazyFlightmode = True if (item == 0): newState = False else: newState = True self.maxThrust.setEnabled(newState) self.maxAngle.setEnabled(newState) self.minThrust.setEnabled(newState) self.thrustLoweringSlewRateLimit.setEnabled(newState) self.slewEnableLimit.setEnabled(newState) self.maxYawRate.setEnabled(newState) @pyqtSlot(bool) def changeXmode(self, checked): self.helper.cf.commander.set_client_xmode(checked) Config().set("client_side_xmode", checked) logger.info("Clientside X-mode enabled: %s", checked)
class FlightTab(Tab, flight_tab_class): uiSetupReadySignal = pyqtSignal() _motor_data_signal = pyqtSignal(object, int) _imu_data_signal = pyqtSignal(object, int) _althold_data_signal = pyqtSignal(object, int) _baro_data_signal = pyqtSignal(object, int) _heading_data_signal = pyqtSignal(object, int) _input_updated_signal = pyqtSignal(float, float, float, float) _rp_trim_updated_signal = pyqtSignal(float, float) _emergency_stop_updated_signal = pyqtSignal(bool) _log_error_signal = pyqtSignal(object, str) #UI_DATA_UPDATE_FPS = 10 connectionFinishedSignal = pyqtSignal(str) disconnectedSignal = pyqtSignal(str) def __init__(self, tabWidget, helper, *args): super(FlightTab, self).__init__(*args) self.setupUi(self) self.tabName = "Flight Control" self.menuName = "Flight Control" self.tabWidget = tabWidget self.helper = helper self.disconnectedSignal.connect(self.disconnected) self.connectionFinishedSignal.connect(self.connected) # Incomming signals self.helper.cf.connectSetupFinished.add_callback( self.connectionFinishedSignal.emit) self.helper.cf.disconnected.add_callback(self.disconnectedSignal.emit) self._input_updated_signal.connect(self.updateInputControl) self.helper.inputDeviceReader.input_updated.add_callback( self._input_updated_signal.emit) self._rp_trim_updated_signal.connect(self.calUpdateFromInput) self.helper.inputDeviceReader.rp_trim_updated.add_callback( self._rp_trim_updated_signal.emit) self._emergency_stop_updated_signal.connect(self.updateEmergencyStop) self.helper.inputDeviceReader.emergency_stop_updated.add_callback( self._emergency_stop_updated_signal.emit) self.helper.inputDeviceReader.althold_updated.add_callback( lambda enabled: self.helper.cf.param.set_value("flightmode.althold", enabled)) self._imu_data_signal.connect(self._imu_data_received) self._baro_data_signal.connect(self._baro_data_received) self._althold_data_signal.connect(self._althold_data_received) self._motor_data_signal.connect(self._motor_data_received) self._heading_data_signal.connect(self._heading_data_received) self._log_error_signal.connect(self._logging_error) # Connect UI signals that are in this tab self.flightModeCombo.currentIndexChanged.connect(self.flightmodeChange) self.minThrust.valueChanged.connect(self.minMaxThrustChanged) self.maxThrust.valueChanged.connect(self.minMaxThrustChanged) self.thrustLoweringSlewRateLimit.valueChanged.connect( self.thrustLoweringSlewRateLimitChanged) self.slewEnableLimit.valueChanged.connect( self.thrustLoweringSlewRateLimitChanged) self.targetCalRoll.valueChanged.connect(self._trim_roll_changed) self.targetCalPitch.valueChanged.connect(self._trim_pitch_changed) self.maxAngle.valueChanged.connect(self.maxAngleChanged) self.maxYawRate.valueChanged.connect(self.maxYawRateChanged) self.uiSetupReadySignal.connect(self.uiSetupReady) self.clientXModeCheckbox.toggled.connect(self.changeXmode) self.isInCrazyFlightmode = False self.uiSetupReady() self.clientXModeCheckbox.setChecked(GuiConfig().get("client_side_xmode")) self.crazyflieXModeCheckbox.clicked.connect( lambda enabled: self.helper.cf.param.set_value("flightmode.x", str(enabled))) self.helper.cf.param.add_update_callback( group="flightmode", name="xmode", cb=( lambda name, checked: self.crazyflieXModeCheckbox.setChecked(eval(checked)))) self.ratePidRadioButton.clicked.connect( lambda enabled: self.helper.cf.param.set_value("flightmode.ratepid", str(enabled))) self.angularPidRadioButton.clicked.connect( lambda enabled: self.helper.cf.param.set_value("flightmode.ratepid", str(not enabled))) self.helper.cf.param.add_update_callback( group="flightmode", name="ratepid", cb=(lambda name, checked: self.ratePidRadioButton.setChecked(eval(checked)))) self.helper.cf.param.add_update_callback( group="flightmode", name="althold", cb=(lambda name, enabled: self.helper.inputDeviceReader.setAltHold(eval(enabled)))) self.helper.cf.param.add_update_callback( group="imu_sensors", cb=self._set_available_sensors) self.logBaro = None self.logAltHold = None self.ai = AttitudeIndicator() #self.verticalLayout_4.addWidget(self.ai) #self.splitter.setSizes([1000,1]) self.gridLayout.addWidget(self.ai, 0, 1) self.compass = Compass() self.gridLayout.addWidget(self.compass, 0, 2) self.targetCalPitch.setValue(GuiConfig().get("trim_pitch")) self.targetCalRoll.setValue(GuiConfig().get("trim_roll")) self.apitch = 0 self.aroll = 0 self.motor_power = 0 def thrustToPercentage(self, thrust): return ((thrust / MAX_THRUST) * 100.0) def uiSetupReady(self): flightComboIndex = self.flightModeCombo.findText( GuiConfig().get("flightmode"), Qt.MatchFixedString) if (flightComboIndex < 0): self.flightModeCombo.setCurrentIndex(0) self.flightModeCombo.currentIndexChanged.emit(0) else: self.flightModeCombo.setCurrentIndex(flightComboIndex) self.flightModeCombo.currentIndexChanged.emit(flightComboIndex) def _logging_error(self, log_conf, msg): QMessageBox.about(self, "Log error", "Error when starting log config" " [%s]: %s" % (log_conf.getName(), msg)) def _motor_data_received(self, data, timestamp): self.actualM1.setValue(data["motor.m1"]) self.actualM2.setValue(data["motor.m2"]) self.actualM3.setValue(data["motor.m3"]) self.actualM4.setValue(data["motor.m4"]) self.motor_power = data["motor.m1"] + data["motor.m2"] + data["motor.m3"] + data["motor.m4"] def _baro_data_received(self, data, timestamp): self.actualASL.setText(("%.2f" % data["baro.aslLong"])) self.ai.setBaro(data["baro.aslLong"]) def _althold_data_received(self, data, timestamp): target = data["altHold.target"] if target>0: if not self.targetASL.isEnabled(): self.targetASL.setEnabled(True) self.targetASL.setText(("%.2f" % target)) self.ai.setHover(target) elif self.targetASL.isEnabled(): self.targetASL.setEnabled(False) self.targetASL.setText("Not set") self.ai.setHover(0) def _imu_data_received(self, data, timestamp): self.aroll = data["stabilizer.roll"] self.apitch = data["stabilizer.pitch"] self.actualRoll.setText(("%.2f" % data["stabilizer.roll"])) self.actualPitch.setText(("%.2f" % data["stabilizer.pitch"])) self.actualYaw.setText(("%.2f" % data["stabilizer.yaw"])) self.actualThrust.setText("%.2f%%" % self.thrustToPercentage( data["stabilizer.thrust"])) self.ai.setRollPitch(-data["stabilizer.roll"], data["stabilizer.pitch"]) def _heading_data_received(self, data, timestamp): # hard and soft correction values generated by Processing Magnetometer_calibration script + calibrate_hardsoft.py # magn_ellipsoid_center = [1341.66, -537.690, 41.1584] # magn_ellipsoid_transform = [[0.934687, 0.0222809, 0.0151145], [0.0222809, 0.919365, -0.00622367], [0.0151145, -0.00622367, 0.996487]] magn_ellipsoid_center = [-170.956, -1056.30, 19.4655] magn_ellipsoid_transform = [[0.852266, 0.00526498, 0.0195745], [0.00526498, 0.888268, -0.00355351], [0.0195745, -0.00355351, 0.997333]] # values generated by calibrate_powered.py qx = [0.067946222436498283, -0.25034004667098259, 8.3336994198409666, -0.17762637163222378] qy = [-0.13945102271766135, 2.9074808469097495, 1.6764850422889934, 0.19244505046927501] qz = [0.018800599305554239, -0.79590273035713055, -3.1033531112103478, 0.13550993988096199] # matrix by vector multiplication def mv(a, b): out = [0,0,0] for x in range(0, 3): out[x] = a[x][0] * b[0] + a[x][1] * b[1] + a[x][2] * b[2]; return out # calculate adjustments related to how much power is sent to the motors def adj(qs, power): p = float(power) / float(40000) # 10k * 4 motors return qs[0]*p**3+qs[1]*p**2+qs[2]*p+qs[3] x, y, z = data['heading.x'], data['heading.y'], data['heading.z'] x = x - magn_ellipsoid_center[0] y = y - magn_ellipsoid_center[1] z = z - magn_ellipsoid_center[2] x, y, z = mv(magn_ellipsoid_transform, [x, y, z]) x = x + adj(qx, self.motor_power) y = y + adj(qy, self.motor_power) z = z + adj(qz, self.motor_power) # correct magnetometer orientation relative to the CF orientation x, y, z = y, x, z * -1 # calculate tilt-compensated heading angle cosRoll = cos(math.radians(self.aroll)) sinRoll = sin(math.radians(self.aroll)) cosPitch = cos(math.radians(self.apitch)) sinPitch = sin(math.radians(self.apitch)) Xh = x * cosPitch + z * sinPitch Yh = x * sinRoll * sinPitch + y * cosRoll - z * sinRoll * cosPitch heading = math.atan2(Yh, Xh) d_heading = math.degrees(heading) * -1 # for some reason getting inveted sign here JoystickReader.controller.getCFHeading(d_heading) # update compass widget self.compass.setAngle(d_heading) # lock heading to 0 degrees north if d_heading > 0: yaw_trim = -20 else: yaw_trim = 20 self.helper.inputDeviceReader.update_trim_yaw_signal.emit(yaw_trim) def connected(self, linkURI): # IMU & THRUST lg = LogConfig("Stabalizer", 200) lg.addVariable(LogVariable("stabilizer.roll", "float")) lg.addVariable(LogVariable("stabilizer.pitch", "float")) lg.addVariable(LogVariable("stabilizer.yaw", "float")) lg.addVariable(LogVariable("stabilizer.thrust", "uint16_t")) self.log = self.helper.cf.log.create_log_packet(lg) if (self.log is not None): self.log.data_received.add_callback(self._imu_data_signal.emit) self.log.error.add_callback(self._log_error_signal.emit) self.log.start() else: logger.warning("Could not setup logconfiguration after " "connection!") # MOTOR lg = LogConfig("Motors", 200) lg.addVariable(LogVariable("motor.m1", "uint32_t")) lg.addVariable(LogVariable("motor.m2", "uint32_t")) lg.addVariable(LogVariable("motor.m3", "uint32_t")) lg.addVariable(LogVariable("motor.m4", "uint32_t")) self.log = self.helper.cf.log.create_log_packet(lg) if (self.log is not None): self.log.data_received.add_callback(self._motor_data_signal.emit) self.log.error.add_callback(self._log_error_signal.emit) self.log.start() else: logger.warning("Could not setup logconfiguration after " "connection!") # HEADING lg = LogConfig("Heading", 200) lg.addVariable(LogVariable("heading.x", "int16_t")) lg.addVariable(LogVariable("heading.y", "int16_t")) lg.addVariable(LogVariable("heading.z", "int16_t")) self.log = self.helper.cf.log.create_log_packet(lg) if (self.log is not None): self.log.data_received.add_callback(self._heading_data_signal.emit) self.log.error.add_callback(self._log_error_signal.emit) self.log.start() else: logger.warning("Could not setup logconfiguration after " "connection!") def _set_available_sensors(self, name, available): logger.info("[%s]: %s", name, available) available = eval(available) if ("HMC5883L" in name): if (not available): self.actualASL.setText("N/A") self.actualASL.setEnabled(False) else: self.actualASL.setEnabled(True) self.helper.inputDeviceReader.setAltHoldAvailable(available) if (not self.logBaro and not self.logAltHold): # The sensor is available, set up the logging lg = LogConfig("Baro", 200) lg.addVariable(LogVariable("baro.aslLong", "float")) self.logBaro = self.helper.cf.log.create_log_packet(lg) if (self.logBaro is not None): self.logBaro.data_received.add_callback(self._baro_data_signal.emit) self.logBaro.error.add_callback(self._log_error_signal.emit) self.logBaro.start() else: logger.warning("Could not setup logconfiguration after " "connection!") lg = LogConfig("AltHold", 200) lg.addVariable(LogVariable("altHold.target", "float")) self.logAltHold = self.helper.cf.log.create_log_packet(lg) if (self.logAltHold is not None): self.logAltHold.data_received.add_callback(self._althold_data_signal.emit) self.logAltHold.error.add_callback(self._log_error_signal.emit) self.logAltHold.start() else: logger.warning("Could not setup logconfiguration after " "connection!") def disconnected(self, linkURI): self.ai.setRollPitch(0, 0) self.actualM1.setValue(0) self.actualM2.setValue(0) self.actualM3.setValue(0) self.actualM4.setValue(0) self.actualRoll.setText("") self.actualPitch.setText("") self.actualYaw.setText("") self.actualThrust.setText("") self.actualASL.setText("") self.targetASL.setText("Not Set") self.targetASL.setEnabled(False) self.actualASL.setEnabled(False) self.logBaro = None self.logAltHold = None def minMaxThrustChanged(self): self.helper.inputDeviceReader.set_thrust_limits( self.minThrust.value(), self.maxThrust.value()) if (self.isInCrazyFlightmode == True): GuiConfig().set("min_thrust", self.minThrust.value()) GuiConfig().set("max_thrust", self.maxThrust.value()) def thrustLoweringSlewRateLimitChanged(self): self.helper.inputDeviceReader.set_thrust_slew_limiting( self.thrustLoweringSlewRateLimit.value(), self.slewEnableLimit.value()) if (self.isInCrazyFlightmode == True): GuiConfig().set("slew_limit", self.slewEnableLimit.value()) GuiConfig().set("slew_rate", self.thrustLoweringSlewRateLimit.value()) def maxYawRateChanged(self): logger.debug("MaxYawrate changed to %d", self.maxYawRate.value()) self.helper.inputDeviceReader.set_yaw_limit(self.maxYawRate.value()) if (self.isInCrazyFlightmode == True): GuiConfig().set("max_yaw", self.maxYawRate.value()) def maxAngleChanged(self): logger.debug("MaxAngle changed to %d", self.maxAngle.value()) self.helper.inputDeviceReader.set_rp_limit(self.maxAngle.value()) if (self.isInCrazyFlightmode == True): GuiConfig().set("max_rp", self.maxAngle.value()) def _trim_pitch_changed(self, value): logger.debug("Pitch trim updated to [%f]" % value) self.helper.inputDeviceReader.set_trim_pitch(value) GuiConfig().set("trim_pitch", value) def _trim_roll_changed(self, value): logger.debug("Roll trim updated to [%f]" % value) self.helper.inputDeviceReader.set_trim_roll(value) GuiConfig().set("trim_roll", value) def calUpdateFromInput(self, rollCal, pitchCal): logger.debug("Trim changed on joystick: roll=%.2f, pitch=%.2f", rollCal, pitchCal) self.targetCalRoll.setValue(rollCal) self.targetCalPitch.setValue(pitchCal) def updateInputControl(self, roll, pitch, yaw, thrust): self.targetRoll.setText(("%0.2f" % roll)) self.targetPitch.setText(("%0.2f" % pitch)) self.targetYaw.setText(("%0.2f" % yaw)) self.targetThrust.setText(("%0.2f %%" % self.thrustToPercentage(thrust))) self.thrustProgress.setValue(thrust) def setMotorLabelsEnabled(self, enabled): self.actualM1.setEnabled(enabled) self.actualM2.setEnabled(enabled) self.actualM3.setEnabled(enabled) self.actualM4.setEnabled(enabled) def emergencyStopStringWithText(self, text): return ("<html><head/><body><p>" "<span style='font-weight:600; color:#7b0005;'>{}</span>" "</p></body></html>".format(text)) def updateEmergencyStop(self, emergencyStop): if emergencyStop: self.setMotorLabelsEnabled(False) self.emergency_stop_label.setText( self.emergencyStopStringWithText("Kill switch active")) else: self.setMotorLabelsEnabled(True) self.emergency_stop_label.setText("") def flightmodeChange(self, item): GuiConfig().set("flightmode", self.flightModeCombo.itemText(item)) logger.info("Changed flightmode to %s", self.flightModeCombo.itemText(item)) self.isInCrazyFlightmode = False if (item == 0): # Normal self.maxAngle.setValue(GuiConfig().get("normal_max_rp")) self.maxThrust.setValue(GuiConfig().get("normal_max_thrust")) self.minThrust.setValue(GuiConfig().get("normal_min_thrust")) self.slewEnableLimit.setValue(GuiConfig().get("normal_slew_limit")) self.thrustLoweringSlewRateLimit.setValue( GuiConfig().get("normal_slew_rate")) self.maxYawRate.setValue(GuiConfig().get("normal_max_yaw")) if (item == 1): # Advanced self.maxAngle.setValue(GuiConfig().get("max_rp")) self.maxThrust.setValue(GuiConfig().get("max_thrust")) self.minThrust.setValue(GuiConfig().get("min_thrust")) self.slewEnableLimit.setValue(GuiConfig().get("slew_limit")) self.thrustLoweringSlewRateLimit.setValue( GuiConfig().get("slew_rate")) self.maxYawRate.setValue(GuiConfig().get("max_yaw")) self.isInCrazyFlightmode = True if (item == 0): newState = False else: newState = True self.maxThrust.setEnabled(newState) self.maxAngle.setEnabled(newState) self.minThrust.setEnabled(newState) self.thrustLoweringSlewRateLimit.setEnabled(newState) self.slewEnableLimit.setEnabled(newState) self.maxYawRate.setEnabled(newState) @pyqtSlot(bool) def changeXmode(self, checked): self.helper.cf.commander.set_client_xmode(checked) GuiConfig().set("client_side_xmode", checked) logger.info("Clientside X-mode enabled: %s", checked)
def __init__(self, tabWidget, helper, *args): super(AutoFlightTab, self).__init__(*args) self.setupUi(self) global TheTab, natnet, copter TheTab = self self.tabName = "Auto Flight Control" self.menuName = "Auto Flight Control" self.tabWidget = tabWidget self.helper = helper self.disconnectedSignal.connect(self.disconnected) self.connectionFinishedSignal.connect(self.connected) # Incomming signals self.helper.cf.connectSetupFinished.add_callback( self.connectionFinishedSignal.emit) self.helper.cf.disconnected.add_callback(self.disconnectedSignal.emit) self.helper.inputDeviceReader.inputUpdateSignal.connect( self.updateInputControl) self.helper.inputDeviceReader.calUpdateSignal.connect( self.calUpdateFromInput) self.helper.inputDeviceReader.emergencyStopSignal.connect( self.updateEmergencyStop) self._imu_data_signal.connect(self._imu_data_received) self._motor_data_signal.connect(self._motor_data_received) # Connect UI signals that are in this tab self.flightModeCombo.currentIndexChanged.connect(self.flightmodeChange) self.minThrust.valueChanged.connect(self.minMaxThrustChanged) self.maxThrust.valueChanged.connect(self.minMaxThrustChanged) self.thrustLoweringSlewRateLimit.valueChanged.connect( self.thrustLoweringSlewRateLimitChanged) self.slewEnableLimit.valueChanged.connect( self.thrustLoweringSlewRateLimitChanged) self.targetCalRoll.valueChanged.connect(self._trim_roll_changed) self.targetCalPitch.valueChanged.connect(self._trim_pitch_changed) self.maxAngle.valueChanged.connect(self.maxAngleChanged) self.maxYawRate.valueChanged.connect(self.maxYawRateChanged) self.uiSetupReadySignal.connect(self.uiSetupReady) self.clientXModeCheckbox.toggled.connect(self.changeXmode) self.isInCrazyFlightmode = False self.uiSetupReady() self.clientXModeCheckbox.setChecked(Config().get("client_side_xmode")) self.crazyflieXModeCheckbox.clicked.connect( lambda enabled: self.helper.cf.param.set_value( "flightctrl.xmode", str(enabled))) self.helper.cf.param.add_update_callback( "flightctrl.xmode", lambda name, checked: self.crazyflieXModeCheckbox.setChecked( eval(checked))) self.ratePidRadioButton.clicked.connect( lambda enabled: self.helper.cf.param.set_value( "flightctrl.ratepid", str(enabled))) self.angularPidRadioButton.clicked.connect( lambda enabled: self.helper.cf.param.set_value( "flightctrl.ratepid", str(not enabled))) self.helper.cf.param.add_update_callback( "flightctrl.ratepid", lambda name, checked: self.ratePidRadioButton.setChecked( eval(checked))) self.ai = AttitudeIndicator() self.gridLayout.addWidget(self.ai, 0, 1) self.targetCalPitch.setValue(Config().get("trim_pitch")) self.targetCalRoll.setValue(Config().get("trim_roll")) """ ADDITION: automode ui """ self.automodeCheckBox.toggled.connect(self.changeAutoMode) self.loopmodeCheckBox.toggled.connect(self.changeLoopMode) self.followmodeCheckBox.toggled.connect(self.changeFollowMode) self.launchButton.clicked.connect(self.launchButtonClicked) self.upButton.clicked.connect(self.upButtonClicked) self.downButton.clicked.connect(self.downButtonClicked) self.frontButton.clicked.connect(self.frontButtonClicked) self.backButton.clicked.connect(self.backButtonClicked) self.rightButton.clicked.connect(self.rightButtonClicked) self.leftButton.clicked.connect(self.leftButtonClicked) self.setAButton.clicked.connect(self.setAButtonClicked) self.setBButton.clicked.connect(self.setBButtonClicked) self.goAButton.clicked.connect(self.goAButtonClicked) self.goBButton.clicked.connect(self.goBButtonClicked) self.neutralThrustBox.valueChanged.connect(self.neutralThrustChanged) self.thrustScaleBox.valueChanged.connect(self.thrustScaleChanged) self.horzScaleBox.valueChanged.connect(self.horzScaleChanged) self.velocityScaleBox.valueChanged.connect(self.velocityScaleChanged) self.velocitySmoothBox.valueChanged.connect(self.velocitySmoothChanged) self.lastUIUpdate = time() """ ADDITION: replace joy stick object's input device with our wrapper class """ print "AutoFlightTab wrapping device" d = self.helper.inputDeviceReader.inputdevice w = DeviceWrapper(d) w.automode = False self.helper.inputDeviceReader.inputdevice = w """ ADDITION: initialize tracker fields of interface """ self.position.setText("received tracker position") self.orientation.setText("received tracker orientation") """ ADDITION: create thread to run command socket """ cmdthread = threading.Thread(target=natnet.manage_cmd_socket, args=[copter]) # cmdthread = threading.Thread(None, manage_cmd_socket, None) cmdthread.setDaemon(True) cmdthread.start()
def __init__(self, tabWidget, helper, *args): global D D.thrust = 0 D.pitch = 0 D.yawrate = 0 D.roll = 0 rospy.init_node("cf_flightTab") self.motor_pub = rospy.Publisher("cf_motorData", MotorData) self.stab_pub = rospy.Publisher("cf_stabData", StabData) self.acc_pub = rospy.Publisher("cf_accData", AccelData) self.gyro_pub = rospy.Publisher("cf_gyroData", GyroData) rospy.Subscriber("cf_textcmd", String, self._cmdCB) super(FlightTab, self).__init__(*args) self.setupUi(self) self.tabName = "Flight Control" self.menuName = "Flight Control" self.tabWidget = tabWidget self.helper = helper self.disconnectedSignal.connect(self.disconnected) self.connectionFinishedSignal.connect(self.connected) # Incomming signals self.helper.cf.connected.add_callback( self.connectionFinishedSignal.emit) self.helper.cf.disconnected.add_callback(self.disconnectedSignal.emit) self._input_updated_signal.connect(self.updateInputControl) self.helper.inputDeviceReader.input_updated.add_callback( self._input_updated_signal.emit) self._rp_trim_updated_signal.connect(self.calUpdateFromInput) self.helper.inputDeviceReader.rp_trim_updated.add_callback( self._rp_trim_updated_signal.emit) self._emergency_stop_updated_signal.connect(self.updateEmergencyStop) self.helper.inputDeviceReader.emergency_stop_updated.add_callback( self._emergency_stop_updated_signal.emit) self.helper.inputDeviceReader.althold_updated.add_callback( lambda enabled: self.helper.cf.param.set_value("flightmode.althold", enabled)) self._gyro_data_signal.connect(self._gyro_data_received) self._accel_data_signal.connect(self._accel_data_received) self._imu_data_signal.connect(self._imu_data_received) self._baro_data_signal.connect(self._baro_data_received) self._althold_data_signal.connect(self._althold_data_received) self._motor_data_signal.connect(self._motor_data_received) self._log_error_signal.connect(self._logging_error) # Connect UI signals that are in this tab self.flightModeCombo.currentIndexChanged.connect(self.flightmodeChange) self.minThrust.valueChanged.connect(self.minMaxThrustChanged) self.maxThrust.valueChanged.connect(self.minMaxThrustChanged) self.thrustLoweringSlewRateLimit.valueChanged.connect( self.thrustLoweringSlewRateLimitChanged) self.slewEnableLimit.valueChanged.connect( self.thrustLoweringSlewRateLimitChanged) self.targetCalRoll.valueChanged.connect(self._trim_roll_changed) self.targetCalPitch.valueChanged.connect(self._trim_pitch_changed) self.maxAngle.valueChanged.connect(self.maxAngleChanged) self.maxYawRate.valueChanged.connect(self.maxYawRateChanged) self.uiSetupReadySignal.connect(self.uiSetupReady) self.clientXModeCheckbox.toggled.connect(self.changeXmode) self.isInCrazyFlightmode = False self.uiSetupReady() self.clientXModeCheckbox.setChecked(GuiConfig().get("client_side_xmode")) self.crazyflieXModeCheckbox.clicked.connect( lambda enabled: self.helper.cf.param.set_value("flightmode.x", str(enabled))) self.helper.cf.param.add_update_callback( group="flightmode", name="xmode", cb=( lambda name, checked: self.crazyflieXModeCheckbox.setChecked(eval(checked)))) self.ratePidRadioButton.clicked.connect( lambda enabled: self.helper.cf.param.set_value("flightmode.ratepid", str(enabled))) self.angularPidRadioButton.clicked.connect( lambda enabled: self.helper.cf.param.set_value("flightmode.ratepid", str(not enabled))) self.helper.cf.param.add_update_callback( group="flightmode", name="ratepid", cb=(lambda name, checked: self.ratePidRadioButton.setChecked(eval(checked)))) self.helper.cf.param.add_update_callback( group="flightmode", name="althold", cb=(lambda name, enabled: self.helper.inputDeviceReader.setAltHold(eval(enabled)))) self.helper.cf.param.add_update_callback( group="imu_sensors", cb=self._set_available_sensors) self.logBaro = None self.logAltHold = None self.ai = AttitudeIndicator() self.verticalLayout_4.addWidget(self.ai) self.splitter.setSizes([1000,1]) self.targetCalPitch.setValue(GuiConfig().get("trim_pitch")) self.targetCalRoll.setValue(GuiConfig().get("trim_roll"))
class FlightTab(Tab, flight_tab_class): uiSetupReadySignal = pyqtSignal() _mode_index = 0 _motor_data_signal = pyqtSignal(int, object, object) _acc_data_signal = pyqtSignal(int, object, object) _imu_data_signal = pyqtSignal(int, object, object) _althold_data_signal = pyqtSignal(int, object, object) _baro_data_signal = pyqtSignal(int, object, object) _mag_data_signal = pyqtSignal(int, object, object) _input_updated_signal = pyqtSignal(float, float, float, float) _rp_trim_updated_signal = pyqtSignal(float, float) _emergency_stop_updated_signal = pyqtSignal(bool) _switch_mode_updated_signal = pyqtSignal() _log_error_signal = pyqtSignal(object, str) # UI_DATA_UPDATE_FPS = 10 connectionFinishedSignal = pyqtSignal(str) disconnectedSignal = pyqtSignal(str) def __init__(self, tabWidget, helper, *args): super(FlightTab, self).__init__(*args) self.setupUi(self) self.setStyleSheet("QToolTip { color: #ffffff; background-color: #2d2d2d; border: 1px solid #f0f0f0; border-radius: 3px; }") self.apitch = 0 self.aroll = 0 self.motor_power = 0 self.tabName = "Flight Control" self.menuName = "Flight Control" self.ai = AttitudeIndicator() self.compass = CompassWidget() self.tabWidget = tabWidget self.helper = helper ########## Freefall related stuff self.ffd = FFD(parent=self) # detection class self.ffr = FFR(parent=self) # recovery class # Connect the crash/free fall detections self.ffd.sigFreeFall.connect(self.freefallDetected) self.ffd.sigCrashed.connect(self.crashDetected) self.ffr.sigRecoveryTimedOut.connect(self.recoveryAborted) # continuously send acc, mean, var to AI self.ffd.sigAccMeanVar.connect(self.ai.setFFAccMeanVar) # Only set recovery on if both fall and crash detection are on as well as recovery self.checkBox_ffd.stateChanged.connect(lambda on: self.ffGuiSync(0,on) ) # detect freefall on/off self.checkBox_crash.stateChanged.connect(lambda on: self.ffGuiSync(1,on)) # detect crashing on/off self.checkBox_ffr.stateChanged.connect(lambda on: self.ffGuiSync(2,on)) # recovery crashing on/off # Use barometer for recovery (only clickedable if the checkbox activates in reaction to detecting a 10DOF flie self.checkBox_ffbaro.clicked.connect(self.ffr.setUseBaro) # intercept control commands self.helper.inputDeviceReader.auto_input_updated.add_callback(self.ffr.step) self.ffr.auto_input_updated.add_callback(self.helper.cf.commander.send_setpoint) self.ffr.auto_input_updated.add_callback(self._input_updated_signal.emit) self.ffr.althold_updated.add_callback(lambda param, arg: self.helper.cf.param.set_value(param, str(arg))) # Emergency Stop self._emergency_stop_updated_signal.connect(self.ffr.setKillSwitch) #self._emergency_stop_updated_signal.connect(self.ai.setKillSwitch) # Debugging Freefall self.pushButton_ff.clicked.connect(self.ffd.sendFakeEmit) self.pushButton_crash.clicked.connect(self.ffd.sendFakeLandingEmit) self.doubleSpinBox_ff_falloff.valueChanged.connect(self.ffr.falloff.setWidth) self.doubleSpinBox_ff_max.valueChanged.connect(self.ffr.falloff.setMaxThrust) self.doubleSpinBox_ff_min.valueChanged.connect(self.ffr.falloff.setMinThrust) self.doubleSpinBox_ff_time.valueChanged.connect(self.ffr.falloff.setTime) self.pushButton_plot.clicked.connect(self.ffr.falloff.plot) self.checkBox_debug.stateChanged.connect(self.toggleFFDebug) self.checkBox_ffbaro.clicked.connect(self.toggleFFDebug) # Slow down drawing to GUi items by keeping track of last received data time self.lastImuTime = 0 self.disconnectedSignal.connect(self.disconnected) self.connectionFinishedSignal.connect(self.connected) # Incomming signals self.helper.cf.connected.add_callback( self.connectionFinishedSignal.emit) self.helper.cf.disconnected.add_callback(self.disconnectedSignal.emit) self._input_updated_signal.connect(self.updateInputControl) self.helper.inputDeviceReader.input_updated.add_callback( self._input_updated_signal.emit) self._rp_trim_updated_signal.connect(self.calUpdateFromInput) self.helper.inputDeviceReader.rp_trim_updated.add_callback( self._rp_trim_updated_signal.emit) self._emergency_stop_updated_signal.connect(self.updateEmergencyStop) self.helper.inputDeviceReader.emergency_stop_updated.add_callback(self._emergency_stop_updated_signal.emit) self._switch_mode_updated_signal.connect(self.switchMode) self.helper.inputDeviceReader.switch_mode_updated.add_callback(self._switch_mode_updated_signal.emit) self.helper.inputDeviceReader.althold_updated.add_callback(self.changeHoldmode) self._imu_data_signal.connect(self._imu_data_received) self._baro_data_signal.connect(self._baro_data_received) self._althold_data_signal.connect(self._althold_data_received) self._motor_data_signal.connect(self._motor_data_received) self._acc_data_signal.connect(self._acc_data_received) self._mag_data_signal.connect(self._mag_data_received) self._log_error_signal.connect(self._logging_error) # Connect UI signals that are in this tab self.flightModeCombo.currentIndexChanged.connect(self.flightmodeChange) self.minThrust.valueChanged.connect(self.minMaxThrustChanged) self.maxThrust.valueChanged.connect(self.minMaxThrustChanged) self.maxAltitude.valueChanged.connect(self.maxAltitudeChanged) self.thrustLoweringSlewRateLimit.valueChanged.connect( self.thrustLoweringSlewRateLimitChanged) self.slewEnableLimit.valueChanged.connect( self.thrustLoweringSlewRateLimitChanged) self.targetCalRoll.valueChanged.connect(self._trim_roll_changed) self.targetCalPitch.valueChanged.connect(self._trim_pitch_changed) self.maxAngle.valueChanged.connect(self.maxAngleChanged) self.maxYawRate.valueChanged.connect(self.maxYawRateChanged) self.uiSetupReadySignal.connect(self.uiSetupReady) self.clientHoldModeCheckbox.toggled.connect(self.changeHoldmode) self.isInCrazyFlightmode = False self.uiSetupReady() self.viscousModeSlider.valueChanged.connect(self.setViscousThrust) self.clientHoldModeCheckbox.setChecked(GuiConfig().get("client_side_holdmode")) # self.crazyflieXModeCheckbox.clicked.connect( # lambda enabled: # self.helper.cf.param.set_value("flightmode.x", str(enabled))) # self.helper.cf.param.add_update_callback( # group="flightmode", name="xmode", # cb=( lambda name, checked: # self.crazyflieXModeCheckbox.setChecked(eval(checked)))) self.ratePidRadioButton.clicked.connect( lambda enabled: self.helper.cf.param.set_value("flightmode.ratepid", str(enabled))) self.angularPidRadioButton.clicked.connect( lambda enabled: self.helper.cf.param.set_value("flightmode.ratepid", str(not enabled))) self.helper.cf.param.add_update_callback( group="flightmode", name="ratepid", cb=(lambda name, checked: self.ratePidRadioButton.setChecked(eval(checked)))) self.helper.cf.param.add_update_callback( group="flightmode", name="althold", cb=(lambda name, enabled: self.helper.inputDeviceReader.setAltHold(eval(enabled)))) self.helper.cf.param.add_update_callback( group="imu_sensors", cb=self._set_available_sensors) self.logBaro = None self.logAltHold = None self.horizontalLayout_5.addWidget(self.ai) self.horizontalLayout_5.addWidget(self.compass) # self.verticalLayout_4.addWidget(self.ai) self.splitter.setSizes([1000, 1]) self.targetCalPitch.setValue(GuiConfig().get("trim_pitch")) self.targetCalRoll.setValue(GuiConfig().get("trim_roll")) def setViscousThrust(self, thrust): self.helper.inputDeviceReader.setViscousModeThrust(thrust) point = QtGui.QCursor.pos() QtGui.QToolTip.showText(QtCore.QPoint(point.x(), self.viscousModeSlider.pos().y()*2-12), QtCore.QString.number(thrust) + "%") @pyqtSlot(int) def toggleFFDebug(self, ignored=None): if self.checkBox_debug.isChecked(): self.pushButton_ff.show() self.pushButton_crash.show() if self.checkBox_ffbaro.isEnabled() and self.checkBox_ffbaro.isChecked(): self.pushButton_plot.hide() self.doubleSpinBox_ff_falloff.hide() self.doubleSpinBox_ff_max.hide() self.doubleSpinBox_ff_min.hide() self.doubleSpinBox_ff_time.hide() self.label_ff4.hide() self.label_ff1.hide() self.label_ff2.hide() self.label_ff3.hide() else: self.pushButton_plot.show() self.doubleSpinBox_ff_falloff.show() self.doubleSpinBox_ff_max.show() self.doubleSpinBox_ff_min.show() self.doubleSpinBox_ff_time.show() self.label_ff4.show() self.label_ff1.show() self.label_ff2.show() self.label_ff3.show() else: self.pushButton_ff.hide() self.pushButton_crash.hide() self.pushButton_plot.hide() self.doubleSpinBox_ff_falloff.hide() self.doubleSpinBox_ff_max.hide() self.doubleSpinBox_ff_min.hide() self.doubleSpinBox_ff_time.hide() self.label_ff4.hide() self.label_ff1.hide() self.label_ff2.hide() self.label_ff3.hide() @pyqtSlot() def freefallDetected(self): self.ai.setFreefall() if self.checkBox_ffr.isChecked() and self.checkBox_ffr.isEnabled(): self.ffr.startRecovery() self.ai.setRecovery(True) self.helper.inputDeviceReader.setAuto(True) self.checkBox_ffr.setChecked(False) # self.emergency_stop_label.setText("Recovering Freefall") # self.checkBox_ffr.setEnabled(False) @pyqtSlot(float) def crashDetected(self, badness): self.ai.setRecovery(False, 'Landed / Crashed') self.ai.setCrash(badness) self.helper.inputDeviceReader.setAuto(False) self.ffr.setLanded() # self.emergency_stop_label.setText("") self.checkBox_ffr.setChecked(True) @pyqtSlot() def recoveryAborted(self): self.ai.setRecovery(False, 'Recovery Aborted / Timed out') self.helper.inputDeviceReader.setAuto(False) # self.emergency_stop_label.setText("") # self.checkBox_ffr.setEnabled(True) pass def ffGuiSync(self, id, on): """ Keeps freefall gui elements in sync""" if id == 0: # freefall detection click self.ffd.setEnabled(on) # detect freefall on/off elif id == 1: # landing detection click self.ffd.setEnabledLanding(on) # detect crashing on/off # elif id == 2: # recovery detection click # Only allow recivery checkbox to be turned on if crash/freefall detection is active self.checkBox_ffr.setEnabled(self.checkBox_ffd.isChecked() and self.checkBox_crash.isChecked()) # Only allow recovery class to be turned on if all boxes are checked # self.ffr.setEnabled(on=self.checkBox_ffd.isChecked() and self.checkBox_crash.isChecked() and self.checkBox_ffr.isChecked() and self.checkBox_ffr.isEnabled()) def makeSpace(self): # I wish I knew how to make the ai QWidget fullscreen.... s = QtGui.QSplitter() if self.splitter_2.widget(0).isHidden(): self.splitter_2.widget(0).show() self.splitter.widget(1).show() else: self.splitter_2.widget(0).hide() self.splitter.widget(1).hide() def _acc_data_received(self, timestamp, data, logconf): self.ffd.readAcc(data["acc.zw"]) self.helper.cf.commander.setActualGravity(data) def updateCamList(self): """Repopulate the combobox with available camera devices and select the last one (=usually the camera we need)""" # Remove all self.comboBox_camera.clear() # Query available devices devices = self.cam.getDevices() for i, device in enumerate(devices): logger.debug("Camera device [%d]: %s", i, device) self.comboBox_camera.addItem(device) # enable/disable the on/off button and dropdown self.checkBox_camera.setEnabled(len(devices) > 0) self.comboBox_camera.setEnabled(len(devices) > 0) if len(devices) == 0: self.comboBox_camera.addItem("None Detected") # Select last one (eg the one we just plugged in) self.comboBox_camera.setCurrentIndex(max(0, len(devices) - 1)) def thrustToPercentage(self, thrust): return ((thrust / MAX_THRUST) * 100.0) def uiSetupReady(self): flightComboIndex = self.flightModeCombo.findText( GuiConfig().get("flightmode"), Qt.MatchFixedString) if (flightComboIndex < 0): self.flightModeCombo.setCurrentIndex(0) self.flightModeCombo.currentIndexChanged.emit(0) else: self.flightModeCombo.setCurrentIndex(flightComboIndex) self.flightModeCombo.currentIndexChanged.emit(flightComboIndex) def _logging_error(self, log_conf, msg): QMessageBox.about(self, "Log error", "Error when starting log config" " [%s]: %s" % (log_conf.name, msg)) def _motor_data_received(self, timestamp, data, logconf): self.motor_power = data["motor.m1"] + data["motor.m2"] + data["motor.m3"] + data["motor.m4"] if self.isVisible(): self.actualM1.setValue(data["motor.m1"]) self.actualM2.setValue(data["motor.m2"]) self.actualM3.setValue(data["motor.m3"]) self.actualM4.setValue(data["motor.m4"]) def _baro_data_received(self, timestamp, data, logconf): self.helper.inputDeviceReader.setCurrentAltitude(data["baro.aslLong"]) if self.isVisible(): self.actualASL.setText(("%.2f" % data["baro.aslLong"])) self.ai.setBaro(data["baro.aslLong"]) def _althold_data_received(self, timestamp, data, logconf): if self.isVisible(): target = data["altHold.target"] if target > 0: if not self.targetASL.isEnabled(): self.targetASL.setEnabled(True) self.targetASL.setText(("%.2f" % target)) self.ai.setHover(target) elif self.targetASL.isEnabled(): self.targetASL.setEnabled(False) self.targetASL.setText("Not set") self.ai.setHover(0) def _imu_data_received(self, timestamp, data, logconf): self.aroll = data["stabilizer.roll"] self.apitch = data["stabilizer.pitch"] if self.isVisible(): self.actualRoll.setText(("%.2f" % data["stabilizer.roll"])) self.actualPitch.setText(("%.2f" % data["stabilizer.pitch"])) self.actualYaw.setText(("%.2f" % data["stabilizer.yaw"])) self.actualThrust.setText("%.2f%%" % self.thrustToPercentage( data["stabilizer.thrust"])) self.ai.setRollPitch(-data["stabilizer.roll"], data["stabilizer.pitch"]) self.compass.setAngle(-data["stabilizer.yaw"]) # self.helper.cf.commander.setActualPoint(data) def _mag_data_received(self, timestamp, data, logconf): # hard and soft correction values generated by Processing Magnetometer_calibration script + calibrate_hardsoft.py magn_ellipsoid_center = [1341.66, -537.690, 41.1584] magn_ellipsoid_transform = [[0.934687, 0.0222809, 0.0151145], [0.0222809, 0.919365, -0.00622367], [0.0151145, -0.00622367, 0.996487]] # values generated by calibrate_powered.py qx = [0.067946222436498283, -0.25034004667098259, 8.3336994198409666, -0.17762637163222378] qy = [-0.13945102271766135, 2.9074808469097495, 1.6764850422889934, 0.19244505046927501] qz = [0.018800599305554239, -0.79590273035713055, -3.1033531112103478, 0.13550993988096199] # matrix by vector multiplication def mv(a, b): out = [0,0,0] for x in range(0, 3): out[x] = a[x][0] * b[0] + a[x][1] * b[1] + a[x][2] * b[2]; return out # calculate adjustments related to how much power is sent to the motors def adj(qs, power): p = float(power) / float(40000) # 10k * 4 motors return qs[0]*p**3+qs[1]*p**2+qs[2]*p+qs[3] x, y, z = data['mag.x'], data['mag.y'], data['mag.z'] x = x - magn_ellipsoid_center[0] y = y - magn_ellipsoid_center[1] z = z - magn_ellipsoid_center[2] x, y, z = mv(magn_ellipsoid_transform, [x, y, z]) x = x + adj(qx, self.motor_power) y = y + adj(qy, self.motor_power) z = z + adj(qz, self.motor_power) # correct magnetometer orientation relative to the CF orientation x, y, z = y, x, z * -1 # calculate tilt-compensated heading angle cosRoll = cos(math.radians(self.aroll)) sinRoll = sin(math.radians(self.aroll)) cosPitch = cos(math.radians(self.apitch)) sinPitch = sin(math.radians(self.apitch)) Xh = x * cosPitch + z * sinPitch Yh = x * sinRoll * sinPitch + y * cosRoll - z * sinRoll * cosPitch heading = math.atan2(Yh, Xh) d_heading = math.degrees(heading) * -1 # for some reason getting inveted sign here # update compass widget #self.compass.setAngle(d_heading) # lock heading to 0 degrees north if d_heading > 0: yaw_trim = -20 else: yaw_trim = 20 self.helper.inputDeviceReader.update_trim_yaw_signal(yaw_trim) def connected(self, linkURI): # IMU & THRUST lg = LogConfig("Stabalizer", GuiConfig().get("ui_update_period")) lg.add_variable("stabilizer.roll", "float") lg.add_variable("stabilizer.pitch", "float") lg.add_variable("stabilizer.yaw", "float") lg.add_variable("stabilizer.thrust", "uint16_t") lg.add_variable("acc.x", "float") lg.add_variable("acc.y", "float") lg.add_variable("acc.z", "float") self.helper.cf.log.add_config(lg) if (lg.valid): lg.data_received_cb.add_callback(self._imu_data_signal.emit) lg.error_cb.add_callback(self._log_error_signal.emit) lg.start() else: logger.warning("Could not setup logconfiguration after " "connection!") # MOTOR lg = LogConfig("Motors", GuiConfig().get("ui_update_period")) lg.add_variable("motor.m1") lg.add_variable("motor.m2") lg.add_variable("motor.m3") lg.add_variable("motor.m4") self.helper.cf.log.add_config(lg) if lg.valid: lg.data_received_cb.add_callback(self._motor_data_signal.emit) lg.error_cb.add_callback(self._log_error_signal.emit) lg.start() else: logger.warning("Could not setup logconfiguration after " "connection!") # Acc for freefall lg = LogConfig("Acc", 10) # Yes we need this at 100hz for freefall detection!! lg.add_variable("acc.zw", "float") self.helper.cf.log.add_config(lg) if lg.valid: lg.data_received_cb.add_callback(self._acc_data_signal.emit) lg.error_cb.add_callback(self._log_error_signal.emit) lg.start() else: logger.warning("Could not setup logconfiguration after connection [ACC]!") lg = LogConfig("Magnetometer", 100) lg.add_variable("mag.x", "int16_t") lg.add_variable("mag.y", "int16_t") lg.add_variable("mag.z", "int16_t") self.helper.cf.log.add_config(lg) if lg.valid: lg.data_received_cb.add_callback(self._mag_data_signal.emit) lg.error_cb.add_callback(self._log_error_signal.emit) lg.start() else: logger.warning("Could not setup logconfiguration after connection!") def _set_available_sensors(self, name, available): logger.info("[%s]: %s", name, available) available = eval(available) if ("HMC5883L" in name): if (not available): self.maxAltitudeLabel.setEnabled(False) self.maxAltitude.setEnabled(False) self.actualASL.setText("N/A") self.actualASL.setEnabled(False) self.checkBox_ffbaro.setEnabled(False) self.checkBox_ffbaro.setChecked(False) else: self.actualASL.setEnabled(True) self.checkBox_ffbaro.setEnabled(True) self.helper.inputDeviceReader.setAltHoldAvailable(available) if (not self.logBaro and not self.logAltHold): # The sensor is available, set up the logging self.logBaro = LogConfig("Baro", 200) self.logBaro.add_variable("baro.aslLong", "float") self.helper.cf.log.add_config(self.logBaro) if self.logBaro.valid: self.logBaro.data_received_cb.add_callback(self._baro_data_signal.emit) self.logBaro.error_cb.add_callback(self._log_error_signal.emit) self.logBaro.start() else: logger.warning("Could not setup logconfiguration after " "connection!") self.logAltHold = LogConfig("AltHold", 200) self.logAltHold.add_variable("altHold.target", "float") self.helper.cf.log.add_config(self.logAltHold) if self.logAltHold.valid: self.logAltHold.data_received_cb.add_callback(self._althold_data_signal.emit) self.logAltHold.error_cb.add_callback(self._log_error_signal.emit) self.logAltHold.start() else: logger.warning("Could not setup logconfiguration after " "connection!") def disconnected(self, linkURI): self.ai.setRollPitch(0, 0) self.actualM1.setValue(0) self.actualM2.setValue(0) self.actualM3.setValue(0) self.actualM4.setValue(0) self.actualRoll.setText("") self.actualPitch.setText("") self.actualYaw.setText("") self.actualThrust.setText("") self.actualASL.setText("") self.targetASL.setText("Not Set") self.targetASL.setEnabled(False) self.actualASL.setEnabled(False) self.logBaro = None self.logAltHold = None def minMaxThrustChanged(self): self.helper.inputDeviceReader.set_thrust_limits(self.minThrust.value(), self.maxThrust.value()) if (self.isInCrazyFlightmode == True): GuiConfig().set("min_thrust", self.minThrust.value()) GuiConfig().set("max_thrust", self.maxThrust.value()) def maxAltitudeChanged(self): self.helper.inputDeviceReader.setMaxAltitude(self.maxAltitude.value()) def thrustLoweringSlewRateLimitChanged(self): self.helper.inputDeviceReader.set_thrust_slew_limiting( self.thrustLoweringSlewRateLimit.value(), self.slewEnableLimit.value()) if (self.isInCrazyFlightmode == True): GuiConfig().set("slew_limit", self.slewEnableLimit.value()) GuiConfig().set("slew_rate", self.thrustLoweringSlewRateLimit.value()) def maxYawRateChanged(self): logger.debug("MaxYawrate changed to %d", self.maxYawRate.value()) self.helper.inputDeviceReader.set_yaw_limit(self.maxYawRate.value()) if (self.isInCrazyFlightmode == True): GuiConfig().set("max_yaw", self.maxYawRate.value()) def maxAngleChanged(self): logger.debug("MaxAngle changed to %d", self.maxAngle.value()) self.helper.inputDeviceReader.set_rp_limit(self.maxAngle.value()) if (self.isInCrazyFlightmode == True): GuiConfig().set("max_rp", self.maxAngle.value()) def _trim_pitch_changed(self, value): logger.debug("Pitch trim updated to [%f]" % value) self.helper.inputDeviceReader.set_trim_pitch(value) GuiConfig().set("trim_pitch", value) def _trim_roll_changed(self, value): logger.debug("Roll trim updated to [%f]" % value) self.helper.inputDeviceReader.set_trim_roll(value) GuiConfig().set("trim_roll", value) def calUpdateFromInput(self, rollCal, pitchCal): logger.debug("Trim changed on joystick: roll=%.2f, pitch=%.2f", rollCal, pitchCal) self.targetCalRoll.setValue(rollCal) self.targetCalPitch.setValue(pitchCal) def updateInputControl(self, roll, pitch, yaw, thrust): self.targetRoll.setText(("%0.2f" % roll)) self.targetPitch.setText(("%0.2f" % pitch)) self.targetYaw.setText(("%0.2f" % yaw)) self.targetThrust.setText(("%0.2f %%" % self.thrustToPercentage(thrust))) self.thrustProgress.setValue(thrust) def setMotorLabelsEnabled(self, enabled): self.M1label.setEnabled(enabled) self.M2label.setEnabled(enabled) self.M3label.setEnabled(enabled) self.M4label.setEnabled(enabled) def emergencyStopStringWithText(self, text): return ("<html><head/><body><p>" "<span style='font-weight:600; color:#7b0005;'>{}</span>" "</p></body></html>".format(text)) def updateEmergencyStop(self, emergencyStop): if emergencyStop: self.setMotorLabelsEnabled(False) self.emergency_stop_label.setEnabled(True) self.emergency_stop_label.setText(self.emergencyStopStringWithText("Kill Switch Active")) self.ai.setKillSwitch(True) else: self.setMotorLabelsEnabled(True) self.emergency_stop_label.setText("Kill Swith") self.emergency_stop_label.setEnabled(False) self.ai.setKillSwitch(False) def flightmodeChange(self, item): GuiConfig().set("flightmode", self.flightModeCombo.itemText(item)) logger.info("Changed flightmode to %s", self.flightModeCombo.itemText(item)) self.isInCrazyFlightmode = False if (item == 0): # Normal self.maxAngle.setValue(GuiConfig().get("normal_max_rp")) self.maxThrust.setValue(GuiConfig().get("normal_max_thrust")) self.minThrust.setValue(GuiConfig().get("normal_min_thrust")) self.slewEnableLimit.setValue(GuiConfig().get("normal_slew_limit")) self.thrustLoweringSlewRateLimit.setValue( GuiConfig().get("normal_slew_rate")) self.maxYawRate.setValue(GuiConfig().get("normal_max_yaw")) if (item == 1): # Advanced self.maxAngle.setValue(GuiConfig().get("max_rp")) self.maxThrust.setValue(GuiConfig().get("max_thrust")) self.minThrust.setValue(GuiConfig().get("min_thrust")) self.slewEnableLimit.setValue(GuiConfig().get("slew_limit")) self.thrustLoweringSlewRateLimit.setValue( GuiConfig().get("slew_rate")) self.maxYawRate.setValue(GuiConfig().get("max_yaw")) self.isInCrazyFlightmode = True if (item == 0): newState = False else: newState = True self.maxThrust.setEnabled(newState) self.maxAngle.setEnabled(newState) self.minThrust.setEnabled(newState) self.thrustLoweringSlewRateLimit.setEnabled(newState) self.slewEnableLimit.setEnabled(newState) self.maxYawRate.setEnabled(newState) @pyqtSlot(bool) def changeCareFreemode(self, checked): # self.helper.cf.commander.set_client_carefreemode(checked) if checked: self.clientCareFreeModeRadio.setChecked(checked) self.helper.cf.param.set_value("FlightMode.flightmode", "0") # self.helper.cf.commander.set_client_positionmode(False) # self.helper.cf.commander.set_client_xmode(False) elif not checked and self._mode_index == 1: self.clientCareFreeModeRadio.setChecked(False) self.clientNormalModeRadio.setChecked(True) self.helper.cf.param.set_value("FlightMode.flightmode", "1") logger.info("CareFree-mode enabled: %s", checked) @pyqtSlot(bool) def changeXmode(self, checked): self.clientXModeRadio.setChecked(checked) # self.helper.cf.commander.set_client_xmode(checked) if checked: self.helper.cf.param.set_value("FlightMode.flightmode", "2") # self.helper.cf.commander.set_client_carefreemode(False) # self.helper.cf.commander.set_client_positionmode(False) logger.info("X-mode enabled: %s", checked) @pyqtSlot(bool) def changePositionmode(self, checked): self.clientPositionModeRadio.setChecked(checked) # self.helper.cf.commander.set_client_positionmode(checked) if checked: self.helper.cf.param.set_value("FlightMode.flightmode", "3") # self.helper.cf.commander.set_client_carefreemode(False) # self.helper.cf.commander.set_client_xmode(False) logger.info("Position-mode enabled: %s", checked) @pyqtSlot(bool) def changeHeadingmode(self, checked): self.clientHeadingModeRadio.setChecked(checked) # self.helper.cf.commander.set_client_positionmode(checked) if checked: self.helper.cf.param.set_value("FlightMode.flightmode", "4") # self.helper.cf.commander.set_client_carefreemode(False) # self.helper.cf.commander.set_client_xmode(False) logger.info("Heading-mode enabled: %s", checked) @pyqtSlot(bool) def changeHoldmode(self, checked): self.clientHoldModeCheckbox.setChecked(checked) self.helper.cf.param.set_value("flightmode.althold", str(checked)) # self.helper.cf.commander.set_client_holdmode(checked) GuiConfig().set("client_side_holdmode", checked) logger.info("Hold-mode enabled: %s", checked) def switchMode(self): if self._mode_index == 4: self._mode_index = 0 else: self._mode_index += 1 if self._mode_index == 0: self.changeCareFreemode(True) self.changeXmode(False) self.changePositionmode(False) self.changeHeadingmode(False) elif self._mode_index == 1: self.changeCareFreemode(False) self.changeXmode(False) self.changePositionmode(False) self.changeHeadingmode(False) elif self._mode_index == 2: self.changeCareFreemode(False) self.changeXmode(True) self.changePositionmode(False) self.changeHeadingmode(False) elif self._mode_index == 3: self.changeCareFreemode(False) self.changeXmode(False) self.changePositionmode(True) self.changeHeadingmode(False) elif self._mode_index == 4: self.changeCareFreemode(False) self.changeXmode(False) self.changePositionmode(False) self.changeHeadingmode(True) logger.info("Mode switched to index: %d", self._mode_index)
def __init__(self, tabWidget, helper, *args): super(FlightTab, self).__init__(*args) self.setupUi(self) self.tabName = "Flight Control" self.menuName = "Flight Control" self.tabWidget = tabWidget self.helper = helper self.disconnectedSignal.connect(self.disconnected) self.connectionFinishedSignal.connect(self.connected) # Incomming signals self.helper.cf.connected.add_callback( self.connectionFinishedSignal.emit) self.helper.cf.disconnected.add_callback(self.disconnectedSignal.emit) self._input_updated_signal.connect(self.updateInputControl) self.helper.inputDeviceReader.input_updated.add_callback( self._input_updated_signal.emit) self._rp_trim_updated_signal.connect(self.calUpdateFromInput) self.helper.inputDeviceReader.rp_trim_updated.add_callback( self._rp_trim_updated_signal.emit) self._emergency_stop_updated_signal.connect(self.updateEmergencyStop) self.helper.inputDeviceReader.emergency_stop_updated.add_callback( self._emergency_stop_updated_signal.emit) self.helper.inputDeviceReader.althold_updated.add_callback( lambda enabled: self.helper.cf.param.set_value("flightmode.althold", enabled)) self._imu_data_signal.connect(self._imu_data_received) self._baro_data_signal.connect(self._baro_data_received) self._althold_data_signal.connect(self._althold_data_received) self._motor_data_signal.connect(self._motor_data_received) self._log_error_signal.connect(self._logging_error) # Connect UI signals that are in this tab self.flightModeCombo.currentIndexChanged.connect(self.flightmodeChange) self.minThrust.valueChanged.connect(self.minMaxThrustChanged) self.maxThrust.valueChanged.connect(self.minMaxThrustChanged) self.thrustLoweringSlewRateLimit.valueChanged.connect( self.thrustLoweringSlewRateLimitChanged) self.slewEnableLimit.valueChanged.connect( self.thrustLoweringSlewRateLimitChanged) self.targetCalRoll.valueChanged.connect(self._trim_roll_changed) self.targetCalPitch.valueChanged.connect(self._trim_pitch_changed) self.maxAngle.valueChanged.connect(self.maxAngleChanged) self.maxYawRate.valueChanged.connect(self.maxYawRateChanged) self.uiSetupReadySignal.connect(self.uiSetupReady) self.clientXModeCheckbox.toggled.connect(self.changeXmode) self.isInCrazyFlightmode = False self.uiSetupReady() self.clientXModeCheckbox.setChecked(Config().get("client_side_xmode")) self.crazyflieXModeCheckbox.clicked.connect( lambda enabled: self.helper.cf.param.set_value("flightmode.x", str(enabled))) self.helper.cf.param.add_update_callback( group="flightmode", name="xmode", cb=( lambda name, checked: self.crazyflieXModeCheckbox.setChecked(eval(checked)))) self.ratePidRadioButton.clicked.connect( lambda enabled: self.helper.cf.param.set_value("flightmode.ratepid", str(enabled))) self.angularPidRadioButton.clicked.connect( lambda enabled: self.helper.cf.param.set_value("flightmode.ratepid", str(not enabled))) self._led_ring_headlight.clicked.connect( lambda enabled: self.helper.cf.param.set_value("ring.headlightEnable", str(enabled))) self.helper.cf.param.add_update_callback( group="flightmode", name="ratepid", cb=(lambda name, checked: self.ratePidRadioButton.setChecked(eval(checked)))) self.helper.cf.param.add_update_callback( group="cpu", name="flash", cb=self._set_enable_client_xmode) self.helper.cf.param.add_update_callback( group="ring", name="headlightEnable", cb=(lambda name, checked: self._led_ring_headlight.setChecked(eval(checked)))) self.helper.cf.param.add_update_callback( group="flightmode", name="althold", cb=(lambda name, enabled: self.helper.inputDeviceReader.enable_alt_hold(eval(enabled)))) self._ledring_nbr_effects = 0 self.helper.cf.param.add_update_callback( group="ring", name="neffect", cb=(lambda name, value: self._set_neffect(eval(value)))) self.helper.cf.param.add_update_callback( group="imu_sensors", cb=self._set_available_sensors) self.helper.cf.param.all_updated.add_callback(self._ring_populate_dropdown) self.logBaro = None self.logAltHold = None self.ai = AttitudeIndicator() self.verticalLayout_4.addWidget(self.ai) self.splitter.setSizes([1000,1]) self.targetCalPitch.setValue(Config().get("trim_pitch")) self.targetCalRoll.setValue(Config().get("trim_roll")) self.helper.inputDeviceReader.alt1_updated.add_callback(self.alt1_updated) self.helper.inputDeviceReader.alt2_updated.add_callback(self.alt2_updated) self._tf_state = 0 self._ring_effect = 0 # Connect callbacks for input device limiting of rpöö/pitch/yaw/thust self.helper.inputDeviceReader.limiting_updated.add_callback( self._limiting_updated.emit) self._limiting_updated.connect(self._set_limiting_enabled)
def __init__(self, tabWidget, helper, *args): super(FlightTab, self).__init__(*args) self.setupUi(self) self.setStyleSheet("QToolTip { color: #ffffff; background-color: #2d2d2d; border: 1px solid #f0f0f0; border-radius: 3px; }") self.apitch = 0 self.aroll = 0 self.motor_power = 0 self.tabName = "Flight Control" self.menuName = "Flight Control" self.ai = AttitudeIndicator() self.compass = CompassWidget() self.tabWidget = tabWidget self.helper = helper ########## Freefall related stuff self.ffd = FFD(parent=self) # detection class self.ffr = FFR(parent=self) # recovery class # Connect the crash/free fall detections self.ffd.sigFreeFall.connect(self.freefallDetected) self.ffd.sigCrashed.connect(self.crashDetected) self.ffr.sigRecoveryTimedOut.connect(self.recoveryAborted) # continuously send acc, mean, var to AI self.ffd.sigAccMeanVar.connect(self.ai.setFFAccMeanVar) # Only set recovery on if both fall and crash detection are on as well as recovery self.checkBox_ffd.stateChanged.connect(lambda on: self.ffGuiSync(0,on) ) # detect freefall on/off self.checkBox_crash.stateChanged.connect(lambda on: self.ffGuiSync(1,on)) # detect crashing on/off self.checkBox_ffr.stateChanged.connect(lambda on: self.ffGuiSync(2,on)) # recovery crashing on/off # Use barometer for recovery (only clickedable if the checkbox activates in reaction to detecting a 10DOF flie self.checkBox_ffbaro.clicked.connect(self.ffr.setUseBaro) # intercept control commands self.helper.inputDeviceReader.auto_input_updated.add_callback(self.ffr.step) self.ffr.auto_input_updated.add_callback(self.helper.cf.commander.send_setpoint) self.ffr.auto_input_updated.add_callback(self._input_updated_signal.emit) self.ffr.althold_updated.add_callback(lambda param, arg: self.helper.cf.param.set_value(param, str(arg))) # Emergency Stop self._emergency_stop_updated_signal.connect(self.ffr.setKillSwitch) #self._emergency_stop_updated_signal.connect(self.ai.setKillSwitch) # Debugging Freefall self.pushButton_ff.clicked.connect(self.ffd.sendFakeEmit) self.pushButton_crash.clicked.connect(self.ffd.sendFakeLandingEmit) self.doubleSpinBox_ff_falloff.valueChanged.connect(self.ffr.falloff.setWidth) self.doubleSpinBox_ff_max.valueChanged.connect(self.ffr.falloff.setMaxThrust) self.doubleSpinBox_ff_min.valueChanged.connect(self.ffr.falloff.setMinThrust) self.doubleSpinBox_ff_time.valueChanged.connect(self.ffr.falloff.setTime) self.pushButton_plot.clicked.connect(self.ffr.falloff.plot) self.checkBox_debug.stateChanged.connect(self.toggleFFDebug) self.checkBox_ffbaro.clicked.connect(self.toggleFFDebug) # Slow down drawing to GUi items by keeping track of last received data time self.lastImuTime = 0 self.disconnectedSignal.connect(self.disconnected) self.connectionFinishedSignal.connect(self.connected) # Incomming signals self.helper.cf.connected.add_callback( self.connectionFinishedSignal.emit) self.helper.cf.disconnected.add_callback(self.disconnectedSignal.emit) self._input_updated_signal.connect(self.updateInputControl) self.helper.inputDeviceReader.input_updated.add_callback( self._input_updated_signal.emit) self._rp_trim_updated_signal.connect(self.calUpdateFromInput) self.helper.inputDeviceReader.rp_trim_updated.add_callback( self._rp_trim_updated_signal.emit) self._emergency_stop_updated_signal.connect(self.updateEmergencyStop) self.helper.inputDeviceReader.emergency_stop_updated.add_callback(self._emergency_stop_updated_signal.emit) self._switch_mode_updated_signal.connect(self.switchMode) self.helper.inputDeviceReader.switch_mode_updated.add_callback(self._switch_mode_updated_signal.emit) self.helper.inputDeviceReader.althold_updated.add_callback(self.changeHoldmode) self._imu_data_signal.connect(self._imu_data_received) self._baro_data_signal.connect(self._baro_data_received) self._althold_data_signal.connect(self._althold_data_received) self._motor_data_signal.connect(self._motor_data_received) self._acc_data_signal.connect(self._acc_data_received) self._mag_data_signal.connect(self._mag_data_received) self._log_error_signal.connect(self._logging_error) # Connect UI signals that are in this tab self.flightModeCombo.currentIndexChanged.connect(self.flightmodeChange) self.minThrust.valueChanged.connect(self.minMaxThrustChanged) self.maxThrust.valueChanged.connect(self.minMaxThrustChanged) self.maxAltitude.valueChanged.connect(self.maxAltitudeChanged) self.thrustLoweringSlewRateLimit.valueChanged.connect( self.thrustLoweringSlewRateLimitChanged) self.slewEnableLimit.valueChanged.connect( self.thrustLoweringSlewRateLimitChanged) self.targetCalRoll.valueChanged.connect(self._trim_roll_changed) self.targetCalPitch.valueChanged.connect(self._trim_pitch_changed) self.maxAngle.valueChanged.connect(self.maxAngleChanged) self.maxYawRate.valueChanged.connect(self.maxYawRateChanged) self.uiSetupReadySignal.connect(self.uiSetupReady) self.clientHoldModeCheckbox.toggled.connect(self.changeHoldmode) self.isInCrazyFlightmode = False self.uiSetupReady() self.viscousModeSlider.valueChanged.connect(self.setViscousThrust) self.clientHoldModeCheckbox.setChecked(GuiConfig().get("client_side_holdmode")) # self.crazyflieXModeCheckbox.clicked.connect( # lambda enabled: # self.helper.cf.param.set_value("flightmode.x", str(enabled))) # self.helper.cf.param.add_update_callback( # group="flightmode", name="xmode", # cb=( lambda name, checked: # self.crazyflieXModeCheckbox.setChecked(eval(checked)))) self.ratePidRadioButton.clicked.connect( lambda enabled: self.helper.cf.param.set_value("flightmode.ratepid", str(enabled))) self.angularPidRadioButton.clicked.connect( lambda enabled: self.helper.cf.param.set_value("flightmode.ratepid", str(not enabled))) self.helper.cf.param.add_update_callback( group="flightmode", name="ratepid", cb=(lambda name, checked: self.ratePidRadioButton.setChecked(eval(checked)))) self.helper.cf.param.add_update_callback( group="flightmode", name="althold", cb=(lambda name, enabled: self.helper.inputDeviceReader.setAltHold(eval(enabled)))) self.helper.cf.param.add_update_callback( group="imu_sensors", cb=self._set_available_sensors) self.logBaro = None self.logAltHold = None self.horizontalLayout_5.addWidget(self.ai) self.horizontalLayout_5.addWidget(self.compass) # self.verticalLayout_4.addWidget(self.ai) self.splitter.setSizes([1000, 1]) self.targetCalPitch.setValue(GuiConfig().get("trim_pitch")) self.targetCalRoll.setValue(GuiConfig().get("trim_roll"))
def __init__(self, tabWidget, helper, *args): super(FlightTab, self).__init__(*args) self.setupUi(self) self.tabName = "Flight Control" self.menuName = "Flight Control" self.tabWidget = tabWidget self.helper = helper self.disconnectedSignal.connect(self.disconnected) self.connectionFinishedSignal.connect(self.connected) # Incomming signals self.helper.cf.connected.add_callback( self.connectionFinishedSignal.emit) self.helper.cf.disconnected.add_callback(self.disconnectedSignal.emit) self._input_updated_signal.connect(self.updateInputControl) self.helper.inputDeviceReader.input_updated.add_callback( self._input_updated_signal.emit) self._rp_trim_updated_signal.connect(self.calUpdateFromInput) self.helper.inputDeviceReader.rp_trim_updated.add_callback( self._rp_trim_updated_signal.emit) self._emergency_stop_updated_signal.connect(self.updateEmergencyStop) self.helper.inputDeviceReader.emergency_stop_updated.add_callback( self._emergency_stop_updated_signal.emit) self.helper.inputDeviceReader.heighthold_input_updated.add_callback( self._heighthold_input_updated_signal.emit) self._heighthold_input_updated_signal.connect( self._heighthold_input_updated) self.helper.inputDeviceReader.hover_input_updated.add_callback( self._hover_input_updated_signal.emit) self._hover_input_updated_signal.connect(self._hover_input_updated) self.helper.inputDeviceReader.assisted_control_updated.add_callback( self._assisted_control_updated_signal.emit) self._assisted_control_updated_signal.connect( self._assisted_control_updated) self._imu_data_signal.connect(self._imu_data_received) self._baro_data_signal.connect(self._baro_data_received) self._motor_data_signal.connect(self._motor_data_received) self._log_error_signal.connect(self._logging_error) # Connect UI signals that are in this tab self.flightModeCombo.currentIndexChanged.connect(self.flightmodeChange) self.minThrust.valueChanged.connect(self.minMaxThrustChanged) self.maxThrust.valueChanged.connect(self.minMaxThrustChanged) self.thrustLoweringSlewRateLimit.valueChanged.connect( self.thrustLoweringSlewRateLimitChanged) self.slewEnableLimit.valueChanged.connect( self.thrustLoweringSlewRateLimitChanged) self.targetCalRoll.valueChanged.connect(self._trim_roll_changed) self.targetCalPitch.valueChanged.connect(self._trim_pitch_changed) self.maxAngle.valueChanged.connect(self.maxAngleChanged) self.maxYawRate.valueChanged.connect(self.maxYawRateChanged) self.uiSetupReadySignal.connect(self.uiSetupReady) self.clientXModeCheckbox.toggled.connect(self.changeXmode) self.isInCrazyFlightmode = False self.uiSetupReady() self.clientXModeCheckbox.setChecked(Config().get("client_side_xmode")) self.crazyflieXModeCheckbox.clicked.connect( lambda enabled: self.helper.cf.param.set_value( "flightmode.x", str(enabled))) self.helper.cf.param.add_update_callback( group="flightmode", name="xmode", cb=(lambda name, checked: self.crazyflieXModeCheckbox.setChecked( eval(checked)))) self.ratePidRadioButton.clicked.connect( lambda enabled: self.helper.cf.param.set_value( "flightmode.ratepid", str(enabled))) self.angularPidRadioButton.clicked.connect( lambda enabled: self.helper.cf.param.set_value( "flightmode.ratepid", str(not enabled))) self._led_ring_headlight.clicked.connect( lambda enabled: self.helper.cf.param.set_value( "ring.headlightEnable", str(enabled))) self.helper.cf.param.add_update_callback( group="flightmode", name="ratepid", cb=(lambda name, checked: self.ratePidRadioButton.setChecked( eval(checked)))) self.helper.cf.param.add_update_callback( group="cpu", name="flash", cb=self._set_enable_client_xmode) self.helper.cf.param.add_update_callback( group="ring", name="headlightEnable", cb=(lambda name, checked: self._led_ring_headlight.setChecked( eval(checked)))) self._ledring_nbr_effects = 0 self.helper.cf.param.add_update_callback(group="ring", name="effect", cb=self._ring_effect_updated) self.helper.cf.param.add_update_callback( group="imu_sensors", cb=self._set_available_sensors) self.helper.cf.param.all_updated.add_callback( self._ring_populate_dropdown) self.logBaro = None self.logAltHold = None self.ai = AttitudeIndicator() self.verticalLayout_4.addWidget(self.ai) self.splitter.setSizes([1000, 1]) self.targetCalPitch.setValue(Config().get("trim_pitch")) self.targetCalRoll.setValue(Config().get("trim_roll")) self.helper.inputDeviceReader.alt1_updated.add_callback( self.alt1_updated) self.helper.inputDeviceReader.alt2_updated.add_callback( self.alt2_updated) self._tf_state = 0 self._ring_effect = 0 # Connect callbacks for input device limiting of rpöö/pitch/yaw/thust self.helper.inputDeviceReader.limiting_updated.add_callback( self._limiting_updated.emit) self._limiting_updated.connect(self._set_limiting_enabled)
class FlightTab(Tab, flight_tab_class): uiSetupReadySignal = pyqtSignal() _motor_data_signal = pyqtSignal(object) _imu_data_signal = pyqtSignal(object) UI_DATA_UPDATE_FPS = 10 connectionFinishedSignal = pyqtSignal(str) disconnectedSignal = pyqtSignal(str) def __init__(self, tabWidget, helper, *args): super(FlightTab, self).__init__(*args) self.setupUi(self) # self.pub_imu = rospy.Publisher('/cf/imu', imu_msg) # self.pub_imu_target = rospy.Publisher('/cf/imu_target', imu_target_msg) # self.pub_motor = rospy.Publisher('/cf/motor', motor_msg) rospy.init_node('crazy_flie') self.tabName = "Flight Control" self.menuName = "Flight Control" self.tabWidget = tabWidget self.helper = helper self.disconnectedSignal.connect(self.disconnected) self.connectionFinishedSignal.connect(self.connected) # Incomming signals self.helper.cf.connectSetupFinished.add_callback( self.connectionFinishedSignal.emit) self.helper.cf.disconnected.add_callback(self.disconnectedSignal.emit) self.helper.inputDeviceReader.inputUpdateSignal.connect( self.updateInputControl) self.helper.inputDeviceReader.calUpdateSignal.connect( self.calUpdateFromInput) self.helper.inputDeviceReader.emergencyStopSignal.connect( self.updateEmergencyStop) self._imu_data_signal.connect(self._imu_data_received) self._motor_data_signal.connect(self._motor_data_received) # Connect UI signals that are in this tab self.flightModeCombo.currentIndexChanged.connect(self.flightmodeChange) self.minThrust.valueChanged.connect(self.minMaxThrustChanged) self.maxThrust.valueChanged.connect(self.minMaxThrustChanged) self.thrustLoweringSlewRateLimit.valueChanged.connect( self.thrustLoweringSlewRateLimitChanged) self.slewEnableLimit.valueChanged.connect( self.thrustLoweringSlewRateLimitChanged) self.targetCalRoll.valueChanged.connect(self._trim_roll_changed) self.targetCalPitch.valueChanged.connect(self._trim_pitch_changed) self.maxAngle.valueChanged.connect(self.maxAngleChanged) self.maxYawRate.valueChanged.connect(self.maxYawRateChanged) self.uiSetupReadySignal.connect(self.uiSetupReady) self.clientXModeCheckbox.toggled.connect(self.changeXmode) self.isInCrazyFlightmode = False self.uiSetupReady() self.clientXModeCheckbox.setChecked(Config().get("client_side_xmode")) self.crazyflieXModeCheckbox.clicked.connect( lambda enabled: self.helper.cf.param.set_value( "flightctrl.xmode", str(enabled))) self.helper.cf.param.add_update_callback( "flightctrl.xmode", lambda name, checked: self.crazyflieXModeCheckbox.setChecked( eval(checked))) self.ratePidRadioButton.clicked.connect( lambda enabled: self.helper.cf.param.set_value( "flightctrl.ratepid", str(enabled))) self.angularPidRadioButton.clicked.connect( lambda enabled: self.helper.cf.param.set_value( "flightctrl.ratepid", str(not enabled))) self.helper.cf.param.add_update_callback( "flightctrl.ratepid", lambda name, checked: self.ratePidRadioButton.setChecked( eval(checked))) self.ai = AttitudeIndicator() self.gridLayout.addWidget(self.ai, 0, 1) self.targetCalPitch.setValue(Config().get("trim_pitch")) self.targetCalRoll.setValue(Config().get("trim_roll")) def thrustToPercentage(self, thrust): return ((thrust / MAX_THRUST) * 100.0) def percentageToThrust(self, percentage): return int(MAX_THRUST * (percentage / 100.0)) def uiSetupReady(self): flightComboIndex = self.flightModeCombo.findText( Config().get("flightmode"), Qt.MatchFixedString) if (flightComboIndex < 0): self.flightModeCombo.setCurrentIndex(0) self.flightModeCombo.currentIndexChanged.emit(0) else: self.flightModeCombo.setCurrentIndex(flightComboIndex) self.flightModeCombo.currentIndexChanged.emit(flightComboIndex) def loggingError(self): logger.warning("Callback of error in LogEntry :(") def _motor_data_received(self, data): #TODO done # msg = motor_msg() # msg.pwm[0] = data["motor.m1"] # msg.pwm[1] = data["motor.m2"] # msg.pwm[2] = data["motor.m3"] # msg.pwm[3] = data["motor.m4"] # self.pub_motor.publish(msg) self.actualM1.setValue(data["motor.m1"]) self.actualM2.setValue(data["motor.m2"]) self.actualM3.setValue(data["motor.m3"]) self.actualM4.setValue(data["motor.m4"]) def _imu_data_received(self, data): # #TODO done # msg = imu_msg() # msg.pitch = data["stabilizer.pitch"] # msg.yaw = data["stabilizer.yaw"] # msg.roll = data["stabilizer.roll"] # msg.thrust = self.thrustToPercentage(data["stabilizer.thrust"]) # self.pub_imu.publish(msg) self.actualRoll.setText(("%.2f" % data["stabilizer.roll"])) self.actualPitch.setText(("%.2f" % data["stabilizer.pitch"])) self.actualYaw.setText(("%.2f" % data["stabilizer.yaw"])) self.actualThrust.setText( "%.2f%%" % self.thrustToPercentage(data["stabilizer.thrust"])) self.ai.setRollPitch(-data["stabilizer.roll"], data["stabilizer.pitch"]) def connected(self, linkURI): lg = LogConfig("Stabalizer", 100) lg.addVariable(LogVariable("stabilizer.roll", "float")) lg.addVariable(LogVariable("stabilizer.pitch", "float")) lg.addVariable(LogVariable("stabilizer.yaw", "float")) lg.addVariable(LogVariable("stabilizer.thrust", "uint16_t")) self.log = self.helper.cf.log.create_log_packet(lg) if (self.log is not None): self.log.dataReceived.add_callback(self._imu_data_signal.emit) self.log.error.add_callback(self.loggingError) self.log.start() else: logger.warning( "Could not setup logconfiguration after connection!") lg = LogConfig("Motors", 100) lg.addVariable(LogVariable("motor.m1", "uint32_t")) lg.addVariable(LogVariable("motor.m2", "uint32_t")) lg.addVariable(LogVariable("motor.m3", "uint32_t")) lg.addVariable(LogVariable("motor.m4", "uint32_t")) self.log = self.helper.cf.log.create_log_packet(lg) if (self.log is not None): self.log.dataReceived.add_callback(self._motor_data_signal.emit) self.log.error.add_callback(self.loggingError) self.log.start() else: logger.warning( "Could not setup logconfiguration after connection!") def disconnected(self, linkURI): self.ai.setRollPitch(0, 0) self.actualM1.setValue(0) self.actualM2.setValue(0) self.actualM3.setValue(0) self.actualM4.setValue(0) self.actualRoll.setText("") self.actualPitch.setText("") self.actualYaw.setText("") self.actualThrust.setText("") def minMaxThrustChanged(self): self.helper.inputDeviceReader.updateMinMaxThrustSignal.emit( self.percentageToThrust(self.minThrust.value()), self.percentageToThrust(self.maxThrust.value())) if (self.isInCrazyFlightmode == True): Config().set("min_thrust", self.minThrust.value()) Config().set("max_thrust", self.maxThrust.value()) def thrustLoweringSlewRateLimitChanged(self): self.helper.inputDeviceReader.updateThrustLoweringSlewrateSignal.emit( self.percentageToThrust(self.thrustLoweringSlewRateLimit.value()), self.percentageToThrust(self.slewEnableLimit.value())) if (self.isInCrazyFlightmode == True): Config().set("slew_limit", self.slewEnableLimit.value()) Config().set("slew_rate", self.thrustLoweringSlewRateLimit.value()) def maxYawRateChanged(self): logger.debug("MaxYawrate changed to %d", self.maxYawRate.value()) self.helper.inputDeviceReader.updateMaxYawRateSignal.emit( self.maxYawRate.value()) if (self.isInCrazyFlightmode == True): Config().set("max_yaw", self.maxYawRate.value()) def maxAngleChanged(self): logger.debug("MaxAngle changed to %d", self.maxAngle.value()) self.helper.inputDeviceReader.updateMaxRPAngleSignal.emit( self.maxAngle.value()) if (self.isInCrazyFlightmode == True): Config().set("max_rp", self.maxAngle.value()) def _trim_pitch_changed(self, value): logger.debug("Pitch trim updated to [%f]" % value) self.helper.inputDeviceReader.update_trim_pitch_signal.emit(value) Config().set("trim_pitch", value) def _trim_roll_changed(self, value): logger.debug("Roll trim updated to [%f]" % value) self.helper.inputDeviceReader.update_trim_roll_signal.emit(value) Config().set("trim_roll", value) def calUpdateFromInput(self, rollCal, pitchCal): logger.debug("Trim changed on joystick: roll=%.2f, pitch=%.2f", rollCal, pitchCal) self.targetCalRoll.setValue(rollCal) self.targetCalPitch.setValue(pitchCal) def updateInputControl(self, roll, pitch, yaw, thrust): self.targetRoll.setText(("%0.2f" % roll)) self.targetPitch.setText(("%0.2f" % pitch)) self.targetYaw.setText(("%0.2f" % yaw)) self.targetThrust.setText( ("%0.2f %%" % self.thrustToPercentage(thrust))) self.thrustProgress.setValue(thrust) # msg = imu_target_msg() # msg.pitch = pitch # msg.yaw = yaw # msg.roll = roll # msg.thrust = self.thrustToPercentage(thrust) # msg.thrust_progress = thrust def setMotorLabelsEnabled(self, enabled): self.M1label.setEnabled(enabled) self.M2label.setEnabled(enabled) self.M3label.setEnabled(enabled) self.M4label.setEnabled(enabled) def emergencyStopStringWithText(self, text): return "<html><head/><body><p><span style='font-weight:600; color:#7b0005;'>{}</span></p></body></html>".format( text) def updateEmergencyStop(self, emergencyStop): if emergencyStop: self.setMotorLabelsEnabled(False) self.emergency_stop_label.setText( self.emergencyStopStringWithText("Kill switch active")) else: self.setMotorLabelsEnabled(True) self.emergency_stop_label.setText("") def flightmodeChange(self, item): Config().set("flightmode", self.flightModeCombo.itemText(item)) logger.info("Changed flightmode to %s", self.flightModeCombo.itemText(item)) self.isInCrazyFlightmode = False if (item == 0): # Normal self.maxAngle.setValue(Config().get("normal_max_rp")) self.maxThrust.setValue(Config().get("normal_max_thrust")) self.minThrust.setValue(Config().get("normal_min_thrust")) self.slewEnableLimit.setValue(Config().get("normal_slew_limit")) self.thrustLoweringSlewRateLimit.setValue( Config().get("normal_slew_rate")) self.maxYawRate.setValue(Config().get("normal_max_yaw")) if (item == 1): # Advanced self.maxAngle.setValue(Config().get("max_rp")) self.maxThrust.setValue(Config().get("max_thrust")) self.minThrust.setValue(Config().get("min_thrust")) self.slewEnableLimit.setValue(Config().get("slew_limit")) self.thrustLoweringSlewRateLimit.setValue( Config().get("slew_rate")) self.maxYawRate.setValue(Config().get("max_yaw")) self.isInCrazyFlightmode = True if (item == 0): newState = False else: newState = True self.maxThrust.setEnabled(newState) self.maxAngle.setEnabled(newState) self.minThrust.setEnabled(newState) self.thrustLoweringSlewRateLimit.setEnabled(newState) self.slewEnableLimit.setEnabled(newState) self.maxYawRate.setEnabled(newState) @pyqtSlot(bool) def changeXmode(self, checked): self.helper.cf.commander.set_client_xmode(checked) Config().set("client_side_xmode", checked) logger.info("Clientside X-mode enabled: %s", checked)
def __init__(self, tabWidget, helper, *args): super(SwarmTab, self).__init__(*args) self.setupUi(self) self.tabName = "Swarm" self.menuName = "Swarm" self.tabWidget = tabWidget self.helper = helper self.disconnectedSignal.connect(self.disconnected) self.connectionFinishedSignal.connect(self.connected) # Incoming signals self.helper.cf.connected.add_callback( self.connectionFinishedSignal.emit) self.helper.cf.disconnected.add_callback(self.disconnectedSignal.emit) self._input_updated_signal.connect(self.updateInputControl) self.helper.inputDeviceReader.input_updated.add_callback( self._input_updated_signal.emit) self._rp_trim_updated_signal.connect(self.calUpdateFromInput) self.helper.inputDeviceReader.rp_trim_updated.add_callback( self._rp_trim_updated_signal.emit) self._emergency_stop_updated_signal.connect(self.updateEmergencyStop) self.helper.inputDeviceReader.emergency_stop_updated.add_callback( self._emergency_stop_updated_signal.emit) self.helper.inputDeviceReader.heighthold_input_updated.add_callback( self._heighthold_input_updated_signal.emit) self._heighthold_input_updated_signal.connect( self._heighthold_input_updated) self.helper.inputDeviceReader.hover_input_updated.add_callback( self._hover_input_updated_signal.emit) self._hover_input_updated_signal.connect( self._hover_input_updated) self.helper.inputDeviceReader.assisted_control_updated.add_callback( self._assisted_control_updated_signal.emit) self._assisted_control_updated_signal.connect( self._assisted_control_updated) self._imu_data_signal.connect(self._imu_data_received) self._baro_data_signal.connect(self._baro_data_received) self._motor_data_signal.connect(self._motor_data_received) self._log_error_signal.connect(self._logging_error) # PlotWidget Stuff self._plot = PlotWidget(fps=30) # Check if we could find the PyQtImport. If not, then # set this tab as disabled self.enabled = self._plot.can_enable self._model = LogConfigModel() self.dataSelector.setModel(self._model) self.plotLayout.addWidget(self._plot) self._log_data_signal.connect(self._log_data_received) self._plotter_log_error_signal.connect(self._plotter_logging_error) if self.enabled: self._disconnected_signal.connect(self._disconnected) self.helper.cf.disconnected.add_callback( self._disconnected_signal.emit) self._connected_signal.connect(self._connected) self.helper.cf.connected.add_callback( self._connected_signal.emit) self.helper.cf.log.block_added_cb.add_callback(self._config_added) self.dataSelector.currentIndexChanged.connect( self._selection_changed) self._previous_config = None self._started_previous = False # Connect UI signals that are in this tab #self.flightModeCombo.currentIndexChanged.connect(self.flightmodeChange) # self.minThrust.valueChanged.connect(self.minMaxThrustChanged) # self.maxThrust.valueChanged.connect(self.minMaxThrustChanged) # self.thrustLoweringSlewRateLimit.valueChanged.connect( # self.thrustLoweringSlewRateLimitChanged) # self.slewEnableLimit.valueChanged.connect( # self.thrustLoweringSlewRateLimitChanged) self.targetCalRoll.valueChanged.connect(self._trim_roll_changed) self.inputTypeComboBox.currentIndexChanged.connect(self.inputtypeChange) self.stepHeightCombo.valueChanged.connect(self._step_height_changed) self.frequencyCombo.valueChanged.connect(self._sine_frequency_changed) self.referenceHeightCheckbox.toggled.connect(lambda: self._use_ref_input(self.referenceHeightCheckbox.isChecked())) self.targetCalPitch.valueChanged.connect(self._trim_pitch_changed) self.updateGainsBtn.clicked.connect(self._controller_gain_changed) self.k1Combo.valueChanged.connect(self._k123_gain_changed) self.k2Combo.valueChanged.connect(self._k123_gain_changed) self.k3Combo.valueChanged.connect(self._k123_gain_changed) # self.maxAngle.valueChanged.connect(self.maxAngleChanged) # self.maxYawRate.valueChanged.connect(self.maxYawRateChanged) self.uiSetupReadySignal.connect(self.uiSetupReady) self.clientXModeCheckbox.toggled.connect(self.changeXmode) self.isInCrazyFlightmode = False self.uiSetupReady() # self.clientXModeCheckbox.setChecked(Config().get("client_side_xmode")) # # self.crazyflieXModeCheckbox.clicked.connect( # lambda enabled: # self.helper.cf.param.set_value("flightmode.x", # str(enabled))) # self.helper.cf.param.add_update_callback( # group="flightmode", name="xmode", # cb=(lambda name, checked: # self.crazyflieXModeCheckbox.setChecked(eval(checked)))) # # self.ratePidRadioButton.clicked.connect( # lambda enabled: # self.helper.cf.param.set_value("flightmode.ratepid", # str(enabled))) # # self.angularPidRadioButton.clicked.connect( # lambda enabled: # self.helper.cf.param.set_value("flightmode.ratepid", # str(not enabled))) # # self._led_ring_headlight.clicked.connect( # lambda enabled: # self.helper.cf.param.set_value("ring.headlightEnable", # str(enabled))) # self.helper.cf.param.add_update_callback( # group="flightmode", name="ratepid", # cb=(lambda name, checked: # self.ratePidRadioButton.setChecked(eval(checked)))) # self.helper.cf.param.add_update_callback( # group="cpu", name="flash", # cb=self._set_enable_client_xmode) # self.helper.cf.param.add_update_callback( # group="ring", name="headlightEnable", # cb=(lambda name, checked: # self._led_ring_headlight.setChecked(eval(checked)))) self._ledring_nbr_effects = 0 # self.helper.cf.param.add_update_callback( # group="ring", # name="effect", # cb=self._ring_effect_updated) self.helper.cf.param.add_update_callback( group="imu_sensors", cb=self._set_available_sensors) # self.helper.cf.param.all_updated.add_callback( # self._ring_populate_dropdown) self.logBaro = None self.logAltHold = None self.ai = AttitudeIndicator() self.verticalLayout_2.addWidget(self.ai) # self.logo = QLabel(self) # pixmap = QPixmap('C:\dev\crazyflie-clients-python\src\cfclient/SUTDLogo.png') # self.logo.setPixmap(pixmap.scaled(150, 150, Qt.KeepAspectRatio)) # self.verticalLayout.addWidget(self.logo) self.splitter.setSizes([1000, 1]) self.targetCalPitch.setValue(Config().get("trim_pitch")) self.targetCalRoll.setValue(Config().get("trim_roll")) self.helper.inputDeviceReader.alt1_updated.add_callback( self.alt1_updated) self.helper.inputDeviceReader.alt2_updated.add_callback( self.alt2_updated) self._tf_state = 0 self._ring_effect = 0
class AutoFlightTab(Tab, flight_tab_class): uiSetupReadySignal = pyqtSignal() _motor_data_signal = pyqtSignal(object) _imu_data_signal = pyqtSignal(object) UI_DATA_UPDATE_FPS = 10 connectionFinishedSignal = pyqtSignal(str) disconnectedSignal = pyqtSignal(str) def __init__(self, tabWidget, helper, *args): super(AutoFlightTab, self).__init__(*args) self.setupUi(self) global TheTab, natnet, copter TheTab = self self.tabName = "Auto Flight Control" self.menuName = "Auto Flight Control" self.tabWidget = tabWidget self.helper = helper self.disconnectedSignal.connect(self.disconnected) self.connectionFinishedSignal.connect(self.connected) # Incomming signals self.helper.cf.connectSetupFinished.add_callback( self.connectionFinishedSignal.emit) self.helper.cf.disconnected.add_callback(self.disconnectedSignal.emit) self.helper.inputDeviceReader.inputUpdateSignal.connect( self.updateInputControl) self.helper.inputDeviceReader.calUpdateSignal.connect( self.calUpdateFromInput) self.helper.inputDeviceReader.emergencyStopSignal.connect( self.updateEmergencyStop) self._imu_data_signal.connect(self._imu_data_received) self._motor_data_signal.connect(self._motor_data_received) # Connect UI signals that are in this tab self.flightModeCombo.currentIndexChanged.connect(self.flightmodeChange) self.minThrust.valueChanged.connect(self.minMaxThrustChanged) self.maxThrust.valueChanged.connect(self.minMaxThrustChanged) self.thrustLoweringSlewRateLimit.valueChanged.connect( self.thrustLoweringSlewRateLimitChanged) self.slewEnableLimit.valueChanged.connect( self.thrustLoweringSlewRateLimitChanged) self.targetCalRoll.valueChanged.connect(self._trim_roll_changed) self.targetCalPitch.valueChanged.connect(self._trim_pitch_changed) self.maxAngle.valueChanged.connect(self.maxAngleChanged) self.maxYawRate.valueChanged.connect(self.maxYawRateChanged) self.uiSetupReadySignal.connect(self.uiSetupReady) self.clientXModeCheckbox.toggled.connect(self.changeXmode) self.isInCrazyFlightmode = False self.uiSetupReady() self.clientXModeCheckbox.setChecked(Config().get("client_side_xmode")) self.crazyflieXModeCheckbox.clicked.connect( lambda enabled: self.helper.cf.param.set_value("flightctrl.xmode", str(enabled))) self.helper.cf.param.add_update_callback( "flightctrl.xmode", lambda name, checked: self.crazyflieXModeCheckbox.setChecked(eval(checked))) self.ratePidRadioButton.clicked.connect( lambda enabled: self.helper.cf.param.set_value("flightctrl.ratepid", str(enabled))) self.angularPidRadioButton.clicked.connect( lambda enabled: self.helper.cf.param.set_value("flightctrl.ratepid", str(not enabled))) self.helper.cf.param.add_update_callback("flightctrl.ratepid", lambda name, checked: self.ratePidRadioButton.setChecked(eval(checked))) self.ai = AttitudeIndicator() self.gridLayout.addWidget(self.ai, 0, 1) self.targetCalPitch.setValue(Config().get("trim_pitch")) self.targetCalRoll.setValue(Config().get("trim_roll")) """ ADDITION: automode ui """ self.automodeCheckBox.toggled.connect(self.changeAutoMode) self.loopmodeCheckBox.toggled.connect(self.changeLoopMode) self.followmodeCheckBox.toggled.connect(self.changeFollowMode) self.launchButton.clicked.connect(self.launchButtonClicked) self.upButton.clicked.connect(self.upButtonClicked) self.downButton.clicked.connect(self.downButtonClicked) self.frontButton.clicked.connect(self.frontButtonClicked) self.backButton.clicked.connect(self.backButtonClicked) self.rightButton.clicked.connect(self.rightButtonClicked) self.leftButton.clicked.connect(self.leftButtonClicked) self.setAButton.clicked.connect(self.setAButtonClicked) self.setBButton.clicked.connect(self.setBButtonClicked) self.goAButton.clicked.connect(self.goAButtonClicked) self.goBButton.clicked.connect(self.goBButtonClicked) self.neutralThrustBox.valueChanged.connect(self.neutralThrustChanged) self.thrustScaleBox.valueChanged.connect(self.thrustScaleChanged) self.horzScaleBox.valueChanged.connect(self.horzScaleChanged) self.velocityScaleBox.valueChanged.connect(self.velocityScaleChanged) self.velocitySmoothBox.valueChanged.connect(self.velocitySmoothChanged) self.lastUIUpdate = time() """ ADDITION: replace joy stick object's input device with our wrapper class """ print "AutoFlightTab wrapping device" d = self.helper.inputDeviceReader.inputdevice w = DeviceWrapper(d) w.automode = False self.helper.inputDeviceReader.inputdevice = w """ ADDITION: initialize tracker fields of interface """ self.position.setText("received tracker position") self.orientation.setText("received tracker orientation") """ ADDITION: create thread to run command socket """ cmdthread = threading.Thread(target=natnet.manage_cmd_socket, args=[copter]) # cmdthread = threading.Thread(None, manage_cmd_socket, None) cmdthread.setDaemon(True) cmdthread.start() """ ADDITION: automode ui methods """ @pyqtSlot(bool) def changeAutoMode(self, checked): print "changeAutoMode", checked # self.helper.inputDeviceReader.inputdevice.automode = checked @pyqtSlot(bool) def changeLoopMode(self, checked): print "changeLoopMode", checked global copter copter.loopmode = checked @pyqtSlot(bool) def changeFollowMode(self, checked): print "changeFollowMode", checked global copter copter.followmode = checked @pyqtSlot() def launchButtonClicked(self): global copter print "launchButtonClicked tracker:", copter.trackerPosition copter.yawOffset = copter.trackerYPR[0] - copter.lastyaw copter.updateTarget(copter.trackerPosition + Vector((0,0.2,0))) print "yawOffset:", copter.yawOffset print "target:", copter.targetPosition self.helper.inputDeviceReader.inputdevice.automode = not self.helper.inputDeviceReader.inputdevice.automode @pyqtSlot() def upButtonClicked(self): global copter print "upButtonClicked tracker:", copter.trackerPosition copter.updateTarget(copter.targetPosition + Vector((0,0.1,0))) print "target:", copter.targetPosition @pyqtSlot() def downButtonClicked(self): global copter print "downButtonClicked tracker:", copter.trackerPosition copter.updateTarget(copter.targetPosition + Vector((0,-0.1,0))) print "target:", copter.targetPosition @pyqtSlot() def frontButtonClicked(self): global copter print "frontButtonClicked tracker:", copter.trackerPosition copter.updateTarget(copter.targetPosition + Vector((0,0,0.1))) print "target:", copter.targetPosition @pyqtSlot() def backButtonClicked(self): global copter print "backButtonClicked tracker:", copter.trackerPosition copter.updateTarget(copter.targetPosition + Vector((0,0,-0.1))) print "target:", copter.targetPosition @pyqtSlot() def rightButtonClicked(self): global copter print "rightButtonClicked tracker:", copter.trackerPosition copter.updateTarget(copter.targetPosition + Vector((-0.1,0,0))) print "target:", copter.targetPosition @pyqtSlot() def leftButtonClicked(self): global copter print "leftButtonClicked tracker:", copter.trackerPosition copter.updateTarget(copter.targetPosition + Vector((0.1,0,0))) print "target:", copter.targetPosition @pyqtSlot() def setAButtonClicked(self): global copter print "setAButtonClicked tracker:", copter.targetPosition copter.pointA = copter.targetPosition print "pointA:", copter.pointA @pyqtSlot() def setBButtonClicked(self): global copter print "setBButtonClicked tracker:", copter.targetPosition copter.pointB = copter.targetPosition print "pointB:", copter.pointB @pyqtSlot() def goAButtonClicked(self): global copter print "goAButtonClicked" global teleLog teleLog.startLog() copter.updateTarget(copter.pointA) @pyqtSlot() def goBButtonClicked(self): global copter print "goBButtonClicked" global teleLog teleLog.startLog() copter.updateTarget(copter.pointB) @pyqtSlot() def neutralThrustChanged(self): print "neutralThrustChanged", self.neutralThrustBox.value() global copter copter.neutralThrust = self.neutralThrustBox.value() @pyqtSlot() def thrustScaleChanged(self): print "thrustScaleChanged", self.thrustScaleBox.value() global copter copter.thrustScale = self.thrustScaleBox.value() @pyqtSlot() def horzScaleChanged(self): print "horzScaleChanged", self.horzScaleBox.value() global copter copter.horzScale = self.horzScaleBox.value() @pyqtSlot() def velocityScaleChanged(self): print "velocityScaleChanged", self.velocityScaleBox.value() global copter copter.velocityScale = self.velocityScaleBox.value() @pyqtSlot() def velocitySmoothChanged(self): print "velocitySmoothChanged", self.velocitySmoothBox.value() global copter copter.velocitySmooth = self.velocitySmoothBox.value() """ original """ def thrustToPercentage(self, thrust): return ((thrust / MAX_THRUST) * 100.0) def percentageToThrust(self, percentage): return int(MAX_THRUST * (percentage / 100.0)) def uiSetupReady(self): flightComboIndex = self.flightModeCombo.findText( Config().get("flightmode"), Qt.MatchFixedString) if (flightComboIndex < 0): self.flightModeCombo.setCurrentIndex(0) self.flightModeCombo.currentIndexChanged.emit(0) else: self.flightModeCombo.setCurrentIndex(flightComboIndex) self.flightModeCombo.currentIndexChanged.emit(flightComboIndex) def loggingError(self): logger.warning("Callback of error in LogEntry :(") def _motor_data_received(self, data): self.actualM1.setValue(data["motor.m1"]) self.actualM2.setValue(data["motor.m2"]) self.actualM3.setValue(data["motor.m3"]) self.actualM4.setValue(data["motor.m4"]) def _imu_data_received(self, data): self.actualRoll.setText(("%.2f" % data["stabilizer.roll"])) self.actualPitch.setText(("%.2f" % data["stabilizer.pitch"])) self.actualYaw.setText(("%.2f" % data["stabilizer.yaw"])) self.actualThrust.setText("%.2f%%" % self.thrustToPercentage( data["stabilizer.thrust"])) self.ai.setRollPitch(-data["stabilizer.roll"], data["stabilizer.pitch"]) """ ADDITION save reported yaw for coord conversion - ? is there some other way to get this ? """ global copter copter.lastyaw = data["stabilizer.yaw"] def connected(self, linkURI): lg = LogConfig("Stabalizer", 100) lg.addVariable(LogVariable("stabilizer.roll", "float")) lg.addVariable(LogVariable("stabilizer.pitch", "float")) lg.addVariable(LogVariable("stabilizer.yaw", "float")) lg.addVariable(LogVariable("stabilizer.thrust", "uint16_t")) self.log = self.helper.cf.log.create_log_packet(lg) if (self.log is not None): self.log.dataReceived.add_callback(self._imu_data_signal.emit) self.log.error.add_callback(self.loggingError) self.log.start() else: logger.warning("Could not setup logconfiguration after " "connection!") lg = LogConfig("Motors", 100) lg.addVariable(LogVariable("motor.m1", "uint32_t")) lg.addVariable(LogVariable("motor.m2", "uint32_t")) lg.addVariable(LogVariable("motor.m3", "uint32_t")) lg.addVariable(LogVariable("motor.m4", "uint32_t")) self.log = self.helper.cf.log.create_log_packet(lg) if (self.log is not None): self.log.dataReceived.add_callback(self._motor_data_signal.emit) self.log.error.add_callback(self.loggingError) self.log.start() else: logger.warning("Could not setup logconfiguration after " "connection!") def disconnected(self, linkURI): self.ai.setRollPitch(0, 0) self.actualM1.setValue(0) self.actualM2.setValue(0) self.actualM3.setValue(0) self.actualM4.setValue(0) self.actualRoll.setText("") self.actualPitch.setText("") self.actualYaw.setText("") self.actualThrust.setText("") def minMaxThrustChanged(self): self.helper.inputDeviceReader.updateMinMaxThrustSignal.emit( self.percentageToThrust(self.minThrust.value()), self.percentageToThrust(self.maxThrust.value())) if (self.isInCrazyFlightmode == True): Config().set("min_thrust", self.minThrust.value()) Config().set("max_thrust", self.maxThrust.value()) def thrustLoweringSlewRateLimitChanged(self): self.helper.inputDeviceReader.updateThrustLoweringSlewrateSignal.emit( self.percentageToThrust(self.thrustLoweringSlewRateLimit.value()), self.percentageToThrust( self.slewEnableLimit.value())) if (self.isInCrazyFlightmode == True): Config().set("slew_limit", self.slewEnableLimit.value()) Config().set("slew_rate", self.thrustLoweringSlewRateLimit.value()) def maxYawRateChanged(self): logger.debug("MaxYawrate changed to %d", self.maxYawRate.value()) self.helper.inputDeviceReader.updateMaxYawRateSignal.emit( self.maxYawRate.value()) if (self.isInCrazyFlightmode == True): Config().set("max_yaw", self.maxYawRate.value()) def maxAngleChanged(self): logger.debug("MaxAngle changed to %d", self.maxAngle.value()) self.helper.inputDeviceReader.updateMaxRPAngleSignal.emit( self.maxAngle.value()) if (self.isInCrazyFlightmode == True): Config().set("max_rp", self.maxAngle.value()) def _trim_pitch_changed(self, value): logger.debug("Pitch trim updated to [%f]" % value) self.helper.inputDeviceReader.update_trim_pitch_signal.emit(value) Config().set("trim_pitch", value) def _trim_roll_changed(self, value): logger.debug("Roll trim updated to [%f]" % value) self.helper.inputDeviceReader.update_trim_roll_signal.emit(value) Config().set("trim_roll", value) def calUpdateFromInput(self, rollCal, pitchCal): logger.debug("Trim changed on joystick: roll=%.2f, pitch=%.2f", rollCal, pitchCal) self.targetCalRoll.setValue(rollCal) self.targetCalPitch.setValue(pitchCal) def updateInputControl(self, roll, pitch, yaw, thrust): now = time() if (now - self.lastUIUpdate < 0.1): return self.lastUIUpdate = now self.targetRoll.setText(("%0.2f" % roll)) self.targetPitch.setText(("%0.2f" % pitch)) self.targetYaw.setText(("%0.2f" % yaw)) self.targetThrust.setText(("%0.2f %%" % self.thrustToPercentage(thrust))) self.thrustProgress.setValue(thrust) """ ADDITION: update display with latest tracker coordinate """ global copter self.position.setText("%.3f %.3f %.3f" % copter.trackerPosition) # self.orientation.setText("%.3f %.3f %.3f %.3f" % copter.trackerOrientation) self.orientation.setText("y: %.1f p: %.1f r: %.1f" % copter.trackerYPR) self.velocity.setText("%.4f %.4f %.4f" % copter.velocity) self.target.setText("%.3f %.3f %.3f" % copter.targetPosition) if (copter.activePointer): self.pointer.setText("%.3f %.3f %.3f" % copter.pointerPosition) else: self.pointer.setText("none") self.RigidCnt.setText("%d" % copter.rigidCnt) self.SinglesCnt.setText("%d" % copter.singlesCnt) self.UpdateRate.setText("%.1f / sec" % copter.updateRate()) def setMotorLabelsEnabled(self, enabled): self.M1label.setEnabled(enabled) self.M2label.setEnabled(enabled) self.M3label.setEnabled(enabled) self.M4label.setEnabled(enabled) def emergencyStopStringWithText(self, text): return ("<html><head/><body><p>" "<span style='font-weight:600; color:#7b0005;'>{}</span>" "</p></body></html>".format(text)) def updateEmergencyStop(self, emergencyStop): if emergencyStop: self.setMotorLabelsEnabled(False) self.emergency_stop_label.setText( self.emergencyStopStringWithText("Kill switch active")) else: self.setMotorLabelsEnabled(True) self.emergency_stop_label.setText("") def flightmodeChange(self, item): Config().set("flightmode", self.flightModeCombo.itemText(item)) logger.info("Changed flightmode to %s", self.flightModeCombo.itemText(item)) self.isInCrazyFlightmode = False if (item == 0): # Normal self.maxAngle.setValue(Config().get("normal_max_rp")) self.maxThrust.setValue(Config().get("normal_max_thrust")) self.minThrust.setValue(Config().get("normal_min_thrust")) self.slewEnableLimit.setValue(Config().get("normal_slew_limit")) self.thrustLoweringSlewRateLimit.setValue( Config().get("normal_slew_rate")) self.maxYawRate.setValue(Config().get("normal_max_yaw")) if (item == 1): # Advanced self.maxAngle.setValue(Config().get("max_rp")) self.maxThrust.setValue(Config().get("max_thrust")) self.minThrust.setValue(Config().get("min_thrust")) self.slewEnableLimit.setValue(Config().get("slew_limit")) self.thrustLoweringSlewRateLimit.setValue( Config().get("slew_rate")) self.maxYawRate.setValue(Config().get("max_yaw")) self.isInCrazyFlightmode = True if (item == 0): newState = False else: newState = True self.maxThrust.setEnabled(newState) self.maxAngle.setEnabled(newState) self.minThrust.setEnabled(newState) self.thrustLoweringSlewRateLimit.setEnabled(newState) self.slewEnableLimit.setEnabled(newState) self.maxYawRate.setEnabled(newState) @pyqtSlot(bool) def changeXmode(self, checked): self.helper.cf.commander.set_client_xmode(checked) Config().set("client_side_xmode", checked) logger.info("Clientside X-mode enabled: %s", checked)