#ifndef QGCPX4VehicleConfig_H #define QGCPX4VehicleConfig_H #include #include #include #include #include #include "QGCToolWidget.h" #include "UASInterface.h" class UASParameterCommsMgr; namespace Ui { class QGCPX4VehicleConfig; } class QGCPX4VehicleConfig : public QWidget { Q_OBJECT public: explicit QGCPX4VehicleConfig(QWidget *parent = 0); ~QGCPX4VehicleConfig(); enum RC_MODE { RC_MODE_1 = 1, RC_MODE_2 = 2, RC_MODE_3 = 3, RC_MODE_4 = 4, RC_MODE_NONE = 5 }; public slots: void rcMenuButtonClicked(); void sensorMenuButtonClicked(); void generalMenuButtonClicked(); void advancedMenuButtonClicked(); /** Set the MAV currently being calibrated */ void setActiveUAS(UASInterface* active); /** Fallback function, automatically called by loadConfig() upon failure to find and xml file*/ void loadQgcConfig(bool primary); /** Load configuration from xml file */ void loadConfig(); /** Start the RC calibration routine */ void startCalibrationRC(); /** Stop the RC calibration routine */ void stopCalibrationRC(); /** Start/stop the RC calibration routine */ void toggleCalibrationRC(bool enabled); /** Set trim positions */ void setTrimPositions(); /** Detect which channels need to be inverted */ void detectChannelInversion(); /** Change the mode setting of the control inputs */ void setRCModeIndex(int newRcMode); /** Render the data updated */ void updateView(); void updateRcWidgetValues(); void handleRcParameterChange(QString parameterName, QVariant value); /** Set the RC channel */ void setRollChan(int channel) { rcMapping[0] = channel - 1; updateInvertedCheckboxes(channel - 1); } /** Set the RC channel */ void setPitchChan(int channel) { rcMapping[1] = channel - 1; updateInvertedCheckboxes(channel - 1); } /** Set the RC channel */ void setYawChan(int channel) { rcMapping[2] = channel - 1; updateInvertedCheckboxes(channel - 1); } /** Set the RC channel */ void setThrottleChan(int channel) { rcMapping[3] = channel - 1; updateInvertedCheckboxes(channel - 1); } /** Set the RC channel */ void setModeChan(int channel) { rcMapping[4] = channel - 1; updateInvertedCheckboxes(channel - 1); } /** Set the RC channel */ void setAux1Chan(int channel) { rcMapping[5] = channel - 1; updateInvertedCheckboxes(channel - 1); } /** Set the RC channel */ void setAux2Chan(int channel) { rcMapping[6] = channel - 1; updateInvertedCheckboxes(channel - 1); } /** Set the RC channel */ void setAux3Chan(int channel) { rcMapping[7] = channel - 1; updateInvertedCheckboxes(channel - 1); } /** Set channel inversion status */ void setRollInverted(bool inverted) { rcRev[rcMapping[0]] = inverted; } /** Set channel inversion status */ void setPitchInverted(bool inverted) { rcRev[rcMapping[1]] = inverted; } /** Set channel inversion status */ void setYawInverted(bool inverted) { rcRev[rcMapping[2]] = inverted; } /** Set channel inversion status */ void setThrottleInverted(bool inverted) { rcRev[rcMapping[3]] = inverted; } /** Set channel inversion status */ void setModeInverted(bool inverted) { rcRev[rcMapping[4]] = inverted; } /** Set channel inversion status */ void setAux1Inverted(bool inverted) { rcRev[rcMapping[5]] = inverted; } /** Set channel inversion status */ void setAux2Inverted(bool inverted) { rcRev[rcMapping[6]] = inverted; } /** Set channel inversion status */ void setAux3Inverted(bool inverted) { rcRev[rcMapping[7]] = inverted; } protected slots: void menuButtonClicked(); /** Reset the RC calibration */ void resetCalibrationRC(); /** Write the RC calibration */ void writeCalibrationRC(); /** Request the RC calibration */ void requestCalibrationRC(); /** Store all parameters in onboard EEPROM */ void writeParameters(); /** Receive remote control updates from MAV */ void remoteControlChannelRawChanged(int chan, float val); /** Parameter changed onboard */ void parameterChanged(int uas, int component, QString parameterName, QVariant value); void updateStatus(const QString& str); void updateError(const QString& str); void setRCType(int type); /** Check timeouts */ void checktimeOuts(); /** Update checkbox status */ void updateInvertedCheckboxes(int index); protected: bool doneLoadingConfig; UASInterface* mav; ///< The current MAV UASParameterCommsMgr* paramCommsMgr; ///< param comms mgr for the mav static const unsigned int chanMax = 8; ///< Maximum number of channels unsigned int chanCount; ///< Actual channels int rcType; ///< Type of the remote control quint64 rcTypeUpdateRequested; ///< Zero if not requested, non-zero if requested static const unsigned int rcTypeTimeout = 5000; ///< 5 seconds timeout, in milliseconds float rcMin[chanMax]; ///< Minimum values float rcMax[chanMax]; ///< Maximum values float rcTrim[chanMax]; ///< Zero-position (center for roll/pitch/yaw, 0 throttle for throttle) int rcMapping[chanMax]; ///< PWM to function mappings float rcScaling[chanMax]; ///< Scaling of channel input to control commands bool rcRev[chanMax]; ///< Channel reverse int rcValue[chanMax]; ///< Last values float rcRoll; ///< PPM input channel used as roll control input float rcPitch; ///< PPM input channel used as pitch control input float rcYaw; ///< PPM input channel used as yaw control input float rcThrottle; ///< PPM input channel used as throttle control input float rcMode; ///< PPM input channel used as mode switch control input float rcAux1; ///< PPM input channel used as aux 1 input float rcAux2; ///< PPM input channel used as aux 2 input float rcAux3; ///< PPM input channel used as aux 3 input bool rcCalChanged; ///< Set if the calibration changes (and needs to be written) bool dataModelChanged; ///< Set if any of the input data changed QTimer updateTimer; ///< Controls update intervals enum RC_MODE rc_mode; ///< Mode of the remote control, according to usual convention QList toolWidgets; ///< Configurable widgets QMap toolWidgetsByName; ///< bool calibrationEnabled; ///< calibration mode on / off QMap paramToWidgetMap; ///< Holds the current active MAV's parameter widgets. QList additionalTabs; ///< Stores additional tabs loaded for this vehicle/autopilot configuration. Used for cleaning up. QMap libParamToWidgetMap; ///< Holds the library parameter widgets QMap > systemTypeToParamMap; ///< Holds all loaded MAV specific parameter widgets, for every MAV. QMap toolToBoxMap; ///< Easy method of figuring out which QGroupBox is tied to which ToolWidget. QMap paramTooltips; ///< Tooltips for the ? button next to a parameter. private: Ui::QGCPX4VehicleConfig *ui; QMap buttonToWidgetMap; signals: void visibilityChanged(bool visible); }; #endif // QGCPX4VehicleConfig_H