/*===================================================================== QGroundControl Open Source Ground Control Station (c) 2009 - 2014 QGROUNDCONTROL PROJECT This file is part of the QGROUNDCONTROL project QGROUNDCONTROL is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. QGROUNDCONTROL is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with QGROUNDCONTROL. If not, see . ======================================================================*/ #include "Joystick.h" #include "QGC.h" #include "MultiVehicleManager.h" #include "AutoPilotPlugin.h" #include "UAS.h" #include #ifndef __mobile__ #ifdef Q_OS_MAC #include #else #include #endif #endif QGC_LOGGING_CATEGORY(JoystickLog, "JoystickLog") QGC_LOGGING_CATEGORY(JoystickValuesLog, "JoystickValuesLog") const char* Joystick::_settingsGroup = "Joysticks"; const char* Joystick::_calibratedSettingsKey = "Calibrated"; const char* Joystick::_buttonActionSettingsKey = "ButtonActionName%1"; const char* Joystick::_throttleModeSettingsKey = "ThrottleMode"; const char* Joystick::_rgFunctionSettingsKey[Joystick::maxFunction] = { "RollAxis", "PitchAxis", "YawAxis", "ThrottleAxis" }; Joystick::Joystick(const QString& name, int axisCount, int buttonCount, int sdlIndex) #ifndef __mobile__ : _sdlIndex(sdlIndex) , _exitThread(false) , _name(name) , _axisCount(axisCount) , _buttonCount(buttonCount) , _calibrationMode(CalibrationModeOff) , _lastButtonBits(0) , _throttleMode(ThrottleModeCenterZero) , _activeVehicle(NULL) , _pollingStartedForCalibration(false) #endif // __mobile__ { #ifdef __mobile__ Q_UNUSED(name) Q_UNUSED(axisCount) Q_UNUSED(buttonCount) Q_UNUSED(sdlIndex) #else for (int i=0; i<_cAxes; i++) { _rgAxisValues[i] = 0; } for (int i=0; i<_cButtons; i++) { _rgButtonValues[i] = false; _rgButtonActions[i] = -1; } _loadSettings(); #endif // __mobile __ } Joystick::~Joystick() { } #ifndef __mobile__ void Joystick::_loadSettings(void) { QSettings settings; settings.beginGroup(_settingsGroup); settings.beginGroup(_name); bool badSettings = false; bool convertOk; qCDebug(JoystickLog) << "_loadSettings " << _name; _calibrated = settings.value(_calibratedSettingsKey, false).toBool(); _throttleMode = (ThrottleMode_t)settings.value(_throttleModeSettingsKey, ThrottleModeCenterZero).toInt(&convertOk); badSettings |= !convertOk; qCDebug(JoystickLog) << "_loadSettings calibrated:throttlemode:badsettings" << _calibrated << _throttleMode << badSettings; QString minTpl ("Axis%1Min"); QString maxTpl ("Axis%1Max"); QString trimTpl ("Axis%1Trim"); QString revTpl ("Axis%1Rev"); for (int axis=0; axis<_cAxes; axis++) { Calibration_t* calibration = &_rgCalibration[axis]; calibration->center = settings.value(trimTpl.arg(axis), 0).toInt(&convertOk); badSettings |= !convertOk; calibration->min = settings.value(minTpl.arg(axis), -32768).toInt(&convertOk); badSettings |= !convertOk; calibration->max = settings.value(maxTpl.arg(axis), 32767).toInt(&convertOk); badSettings |= !convertOk; calibration->reversed = settings.value(revTpl.arg(axis), false).toBool(); qCDebug(JoystickLog) << "_loadSettings axis:min:max:trim:reversed:badsettings" << axis << calibration->min << calibration->max << calibration->center << calibration->reversed << badSettings; } for (int function=0; functioncenter); settings.setValue(minTpl.arg(axis), calibration->min); settings.setValue(maxTpl.arg(axis), calibration->max); settings.setValue(revTpl.arg(axis), calibration->reversed); qCDebug(JoystickLog) << "_saveSettings name:axis:min:max:trim:reversed" << _name << axis << calibration->min << calibration->max << calibration->center << calibration->reversed; } for (int function=0; function calibration.center) { axisBasis = 1.0f; valueNormalized = value - calibration.center; axisLength = calibration.max - calibration.center; } else { axisBasis = -1.0f; valueNormalized = calibration.center - value; axisLength = calibration.center - calibration.min; } float axisPercent = valueNormalized / axisLength; float correctedValue = axisBasis * axisPercent; if (calibration.reversed) { correctedValue *= -1.0f; } #if 0 qCDebug(JoystickLog) << "_adjustRange corrected:value:min:max:center:reversed:basis:normalized:length" << correctedValue << value << calibration.min << calibration.max << calibration.center << calibration.center << axisBasis << valueNormalized << axisLength; #endif return std::max(-1.0f, std::min(correctedValue, 1.0f)); } void Joystick::run(void) { SDL_Joystick* sdlJoystick = SDL_JoystickOpen(_sdlIndex); if (!sdlJoystick) { qCWarning(JoystickLog) << "SDL_JoystickOpen failed:" << SDL_GetError(); return; } while (!_exitThread) { SDL_JoystickUpdate(); // Update axes for (int axisIndex=0; axisIndex<_axisCount; axisIndex++) { int newAxisValue = SDL_JoystickGetAxis(sdlJoystick, axisIndex); // Calibration code requires signal to be emitted even if value hasn't changed _rgAxisValues[axisIndex] = newAxisValue; emit rawAxisValueChanged(axisIndex, newAxisValue); } // Update buttons for (int buttonIndex=0; buttonIndex<_buttonCount; buttonIndex++) { bool newButtonValue = !!SDL_JoystickGetButton(sdlJoystick, buttonIndex); if (newButtonValue != _rgButtonValues[buttonIndex]) { _rgButtonValues[buttonIndex] = newButtonValue; emit rawButtonPressedChanged(buttonIndex, newButtonValue); } } if (_calibrationMode != CalibrationModeCalibrating) { int axis = _rgFunctionAxis[rollFunction]; float roll = _adjustRange(_rgAxisValues[axis], _rgCalibration[axis]); axis = _rgFunctionAxis[pitchFunction]; float pitch = _adjustRange(_rgAxisValues[axis], _rgCalibration[axis]); axis = _rgFunctionAxis[yawFunction]; float yaw = _adjustRange(_rgAxisValues[axis], _rgCalibration[axis]); axis = _rgFunctionAxis[throttleFunction]; float throttle = _adjustRange(_rgAxisValues[axis], _rgCalibration[axis]); // Map from unit circle to linear range and limit roll = std::max(-1.0f, std::min(tanf(asinf(roll)), 1.0f)); pitch = std::max(-1.0f, std::min(tanf(asinf(pitch)), 1.0f)); yaw = std::max(-1.0f, std::min(tanf(asinf(yaw)), 1.0f)); throttle = std::max(-1.0f, std::min(tanf(asinf(throttle)), 1.0f)); // Adjust throttle to 0:1 range if (_throttleMode == ThrottleModeCenterZero) { throttle = std::max(0.0f, throttle); } else { throttle = (throttle + 1.0f) / 2.0f; } // Set up button pressed information // We only send the buttons the firmwware has reserved int reservedButtonCount = _activeVehicle->manualControlReservedButtonCount(); if (reservedButtonCount == -1) { reservedButtonCount = _buttonCount; } quint16 newButtonBits = 0; // New set of button which are down quint16 buttonPressedBits = 0; // Buttons pressed for manualControl signal for (int buttonIndex=0; buttonIndex<_buttonCount; buttonIndex++) { quint16 buttonBit = 1 << buttonIndex; if (!_rgButtonValues[buttonIndex]) { // Button up, just record it newButtonBits |= buttonBit; } else { if (_lastButtonBits & buttonBit) { // Button was up last time through, but is now down which indicates a button press qCDebug(JoystickLog) << "button triggered" << buttonIndex; if (buttonIndex >= reservedButtonCount) { // Button is above firmware reserved set QString buttonAction =_rgButtonActions[buttonIndex]; if (!buttonAction.isEmpty()) { _buttonAction(buttonAction); } } } // Mark the button as pressed as long as its pressed buttonPressedBits |= buttonBit; } } _lastButtonBits = newButtonBits; qCDebug(JoystickValuesLog) << "name:roll:pitch:yaw:throttle" << name() << roll << -pitch << yaw << throttle; emit manualControl(roll, -pitch, yaw, throttle, buttonPressedBits, _activeVehicle->joystickMode()); } // Sleep, update rate of joystick is approx. 25 Hz (1000 ms / 25 = 40 ms) QGC::SLEEP::msleep(40); } SDL_JoystickClose(sdlJoystick); } void Joystick::startPolling(Vehicle* vehicle) { if (isRunning()) { if (vehicle != _activeVehicle) { // Joystick was previously disabled, but now enabled from config screen if (_calibrationMode == CalibrationModeOff) { qWarning() << "Incorrect usage pattern"; return; } _activeVehicle = vehicle; _pollingStartedForCalibration = false; } } else { _activeVehicle = vehicle; UAS* uas = _activeVehicle->uas(); connect(this, &Joystick::manualControl, uas, &UAS::setExternalControlSetpoint); // FIXME: **** //connect(this, &Joystick::buttonActionTriggered, uas, &UAS::triggerAction); _exitThread = false; start(); } } void Joystick::stopPolling(void) { if (isRunning()) { UAS* uas = _activeVehicle->uas(); disconnect(this, &Joystick::manualControl, uas, &UAS::setExternalControlSetpoint); // FIXME: **** //disconnect(this, &Joystick::buttonActionTriggered, uas, &UAS::triggerAction); _exitThread = true; } } void Joystick::setCalibration(int axis, Calibration_t& calibration) { if (axis < 0 || axis > _cAxes) { qCWarning(JoystickLog) << "Invalid axis index" << axis; return; } _calibrated = true; _rgCalibration[axis] = calibration; _saveSettings(); emit calibratedChanged(_calibrated); } Joystick::Calibration_t Joystick::getCalibration(int axis) { if (axis < 0 || axis > _cAxes) { qCWarning(JoystickLog) << "Invalid axis index" << axis; } return _rgCalibration[axis]; } void Joystick::setFunctionAxis(AxisFunction_t function, int axis) { if (axis < 0 || axis > _cAxes) { qCWarning(JoystickLog) << "Invalid axis index" << axis; return; } _calibrated = true; _rgFunctionAxis[function] = axis; _saveSettings(); emit calibratedChanged(_calibrated); } int Joystick::getFunctionAxis(AxisFunction_t function) { if (function < 0 || function >= maxFunction) { qCWarning(JoystickLog) << "Invalid function" << function; } return _rgFunctionAxis[function]; } QStringList Joystick::actions(void) { QStringList list; list << "Arm" << "Disarm"; return list; } void Joystick::setButtonAction(int button, const QString& action) { if (button < 0 || button > _cButtons) { qCWarning(JoystickLog) << "Invalid button index" << button; return; } qDebug() << "setButtonAction" << action; _rgButtonActions[button] = action; _saveSettings(); emit buttonActionsChanged(buttonActions()); } QString Joystick::getButtonAction(int button) { if (button < 0 || button > _cButtons) { qCWarning(JoystickLog) << "Invalid button index" << button; } return _rgButtonActions[button]; } QVariantList Joystick::buttonActions(void) { QVariantList list; for (int button=0; button<_buttonCount; button++) { list += QVariant::fromValue(_rgButtonActions[button]); } return list; } int Joystick::throttleMode(void) { return _throttleMode; } void Joystick::setThrottleMode(int mode) { if (mode < 0 || mode >= ThrottleModeMax) { qCWarning(JoystickLog) << "Invalid throttle mode" << mode; return; } _throttleMode = (ThrottleMode_t)mode; _saveSettings(); emit throttleModeChanged(_throttleMode); } void Joystick::startCalibrationMode(CalibrationMode_t mode) { if (mode == CalibrationModeOff) { qWarning() << "Incorrect mode CalibrationModeOff"; return; } _calibrationMode = mode; if (!isRunning()) { _pollingStartedForCalibration = true; startPolling(MultiVehicleManager::instance()->activeVehicle()); } } void Joystick::stopCalibrationMode(CalibrationMode_t mode) { if (mode == CalibrationModeOff) { qWarning() << "Incorrect mode: CalibrationModeOff"; return; } if (mode == CalibrationModeCalibrating) { _calibrationMode = CalibrationModeMonitor; } else { _calibrationMode = CalibrationModeOff; if (_pollingStartedForCalibration) { stopPolling(); } } } void Joystick::_buttonAction(const QString& action) { if (action == "Arm") { _activeVehicle->setArmed(true); } else if (action == "Disarm") { _activeVehicle->setArmed(false); } else { qCDebug(JoystickLog) << "_buttonAction unknown action:" << action; } } #endif // __mobile__