/*===================================================================== QGroundControl Open Source Ground Control Station (c) 2009, 2015 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 . ======================================================================*/ /// @file /// @author Don Gagne #include "FlightModesComponentController.h" #include "QGCMAVLink.h" #include "AutoPilotPluginManager.h" #include #include FlightModesComponentController::FlightModesComponentController(void) : _validConfiguration(false), _channelCount(18), _manualModeSelected(false), _assistModeSelected(false), _autoModeSelected(false), _acroModeSelected(false), _altCtlModeSelected(false), _posCtlModeSelected(false), _missionModeSelected(false), _loiterModeSelected(false), _returnModeSelected(false), _offboardModeSelected(false) { QStringList usedParams; usedParams << "RC_MAP_THROTTLE" << "RC_MAP_YAW" << "RC_MAP_PITCH" << "RC_MAP_ROLL" << "RC_MAP_FLAPS" << "RC_MAP_AUX1" << "RC_MAP_AUX2" << "RC_MAP_MODE_SW" << "RC_MAP_RETURN_SW" << "RC_MAP_LOITER_SW" << "RC_MAP_POSCTL_SW" << "RC_MAP_OFFB_SW" << "RC_MAP_ACRO_SW"; if (!_allParametersExists(FactSystem::defaultComponentId, usedParams)) { return; } _init(); _validateConfiguration(); connect(_vehicle, &Vehicle::rcChannelsChanged, this, &FlightModesComponentController::_rcChannelsChanged); } void FlightModesComponentController::_init(void) { // FIXME: What about VTOL? That confuses the whole Flight Mode naming scheme _fixedWing = _vehicle->vehicleType() == MAV_TYPE_FIXED_WING; // We need to know min and max for channel in order to calculate percentage range for (int channel=0; channel<_chanMax; channel++) { QString rcMinParam, rcMaxParam, rcRevParam; rcMinParam = QString("RC%1_MIN").arg(channel+1); rcMaxParam = QString("RC%1_MAX").arg(channel+1); rcRevParam = QString("RC%1_REV").arg(channel+1); QVariant value; _rgRCMin[channel] = getParameterFact(FactSystem::defaultComponentId, rcMinParam)->rawValue().toInt(); _rgRCMax[channel] = getParameterFact(FactSystem::defaultComponentId, rcMaxParam)->rawValue().toInt(); float floatReversed = getParameterFact(-1, rcRevParam)->rawValue().toFloat(); _rgRCReversed[channel] = floatReversed == -1.0f; _rcValues[channel] = 0.0; } // RC_CHAN_CNT parameter is set by Radio Cal to specify the number of radio channels. if (parameterExists(FactSystem::defaultComponentId, "RC_CHAN_CNT")) { _channelCount = getParameterFact(FactSystem::defaultComponentId, "RC_CHAN_CNT")->rawValue().toInt(); } else { _channelCount =_chanMax; } if (_channelCount <= 0 || _channelCount > _chanMax) { // Parameter exists, but has not yet been set or is invalid. Use default _channelCount = _chanMax; } int modeChannel = getParameterFact(-1, "RC_MAP_MODE_SW")->rawValue().toInt(); int posCtlChannel = getParameterFact(-1, "RC_MAP_POSCTL_SW")->rawValue().toInt(); int loiterChannel = getParameterFact(-1, "RC_MAP_LOITER_SW")->rawValue().toInt(); if (posCtlChannel == 0) { // PosCtl disabled so AltCtl must move back to main Mode switch _assistModeVisible = false; } else { // Assist mode is visible if AltCtl/PosCtl are on seperate channel from main Mode switch _assistModeVisible = posCtlChannel != modeChannel; } if (loiterChannel == 0) { // Loiter disabled so Mission must move back to main Mode switch _autoModeVisible = false; } else { // Auto mode is visible if Mission/Loiter are on seperate channel from main Mode switch _autoModeVisible = loiterChannel != modeChannel; } // Setup the channel combobox model QList usedChannels; QStringList attitudeParams; attitudeParams << "RC_MAP_THROTTLE" << "RC_MAP_YAW" << "RC_MAP_PITCH" << "RC_MAP_ROLL" << "RC_MAP_FLAPS" << "RC_MAP_AUX1" << "RC_MAP_AUX2"; foreach(QString attitudeParam, attitudeParams) { int channel = getParameterFact(-1, attitudeParam)->rawValue().toInt(); if (channel != 0) { usedChannels << channel; } } _channelListModel << "Disabled"; _channelListModelChannel << 0; for (int channel=1; channel<=_channelCount; channel++) { if (!usedChannels.contains(channel)) { _channelListModel << QString("Channel %1").arg(channel); _channelListModelChannel << channel; } } // Setup reserved channels string for ui bool first = true; foreach (int usedChannel, usedChannels) { if (!first) { _reservedChannels += ", "; } _reservedChannels += QString("%1").arg(usedChannel); first = false; } _recalcModeRows(); } /// This will look for parameter settings which would cause the config to not run correctly. /// It will set _validConfiguration and _configurationErrors as needed. void FlightModesComponentController::_validateConfiguration(void) { _validConfiguration = true; // Make sure switches are valid and within channel range QStringList switchParams; QList switchMappings; switchParams << "RC_MAP_MODE_SW" << "RC_MAP_ACRO_SW" << "RC_MAP_POSCTL_SW" << "RC_MAP_LOITER_SW" << "RC_MAP_RETURN_SW" << "RC_MAP_OFFB_SW"; for(int i=0; irawValue().toInt(); switchMappings << map; if (map < 0 || map > _channelCount) { _validConfiguration = false; _configurationErrors += QString("%1 is set to %2. Mapping must between 0 and %3 (inclusive).\n").arg(switchParams[i]).arg(map).arg(_channelCount); } } // Make sure mode switches are not double-mapped QStringList attitudeParams; attitudeParams << "RC_MAP_THROTTLE" << "RC_MAP_YAW" << "RC_MAP_PITCH" << "RC_MAP_ROLL" << "RC_MAP_FLAPS" << "RC_MAP_AUX1" << "RC_MAP_AUX2"; for (int i=0; irawValue().toInt(); for (int j=0; jrawValue().toFloat(); if (threshold < 0.0f || threshold > 1.0f) { _validConfiguration = false; _configurationErrors += QString("%1 is set to %2. Threshold must between 0.0 and 1.0 (inclusive).\n").arg(thresholdParam).arg(threshold); } } } /// Connected to Vehicle::rcChannelsChanged signal void FlightModesComponentController::_rcChannelsChanged(int channelCount, int pwmValues[Vehicle::cMaxRcChannels]) { for (int channel=0; channel _rgRCMax[channel]) { channelValue= _rgRCMax[channel]; } float percentRange = (channelValue - _rgRCMin[channel]) / (float)(_rgRCMax[channel] - _rgRCMin[channel]); if (_rgRCReversed[channel]) { percentRange = 1.0 - percentRange; } _rcValues[channel] = percentRange; } } _recalcModeSelections(); emit switchLiveRangeChanged(); } double FlightModesComponentController::_switchLiveRange(const QString& param) { QVariant value; int channel = getParameterFact(-1, param)->rawValue().toInt(); if (channel == 0) { return 0.0; } else { return _rcValues[channel - 1]; } } double FlightModesComponentController::manualModeRcValue(void) { return _switchLiveRange("RC_MAP_MODE_SW"); } double FlightModesComponentController::assistModeRcValue(void) { return manualModeRcValue(); } double FlightModesComponentController::autoModeRcValue(void) { return manualModeRcValue(); } double FlightModesComponentController::acroModeRcValue(void) { return _switchLiveRange("RC_MAP_ACRO_SW"); } double FlightModesComponentController::altCtlModeRcValue(void) { int posCtlSwitchChannel = getParameterFact(-1, "RC_MAP_POSCTL_SW")->rawValue().toInt(); if (posCtlSwitchChannel == 0) { return _switchLiveRange("RC_MAP_MODE_SW"); } else { return _switchLiveRange("RC_MAP_POSCTL_SW"); } } double FlightModesComponentController::posCtlModeRcValue(void) { return _switchLiveRange("RC_MAP_POSCTL_SW"); } double FlightModesComponentController::missionModeRcValue(void) { int returnSwitchChannel = getParameterFact(-1, "RC_MAP_RETURN_SW")->rawValue().toInt(); int loiterSwitchChannel = getParameterFact(-1, "RC_MAP_LOITER_SW")->rawValue().toInt(); const char* switchChannelParam = "RC_MAP_MODE_SW"; if (returnSwitchChannel == 0) { if (loiterSwitchChannel != 0) { switchChannelParam = "RC_MAP_LOITER_SW"; } } else { if (loiterSwitchChannel == 0) { switchChannelParam = "RC_MAP_RETURN_SW"; } else { switchChannelParam = "RC_MAP_LOITER_SW"; } } return _switchLiveRange(switchChannelParam); } double FlightModesComponentController::loiterModeRcValue(void) { return _switchLiveRange("RC_MAP_LOITER_SW"); } double FlightModesComponentController::returnModeRcValue(void) { return _switchLiveRange("RC_MAP_RETURN_SW"); } double FlightModesComponentController::offboardModeRcValue(void) { return _switchLiveRange("RC_MAP_OFFB_SW"); } void FlightModesComponentController::_recalcModeSelections(void) { _manualModeSelected = false; _assistModeSelected = false; _autoModeSelected = false; _acroModeSelected = false; _altCtlModeSelected = false; _posCtlModeSelected = false; _missionModeSelected = false; _loiterModeSelected = false; _returnModeSelected = false; _offboardModeSelected = false; // Convert channels to 0-based, -1 signals not mapped int modeSwitchChannel = getParameterFact(-1, "RC_MAP_MODE_SW")->rawValue().toInt() - 1; int acroSwitchChannel = getParameterFact(-1, "RC_MAP_ACRO_SW")->rawValue().toInt() - 1; int posCtlSwitchChannel = getParameterFact(-1, "RC_MAP_POSCTL_SW")->rawValue().toInt() - 1; int loiterSwitchChannel = getParameterFact(-1, "RC_MAP_LOITER_SW")->rawValue().toInt() - 1; int returnSwitchChannel = getParameterFact(-1, "RC_MAP_RETURN_SW")->rawValue().toInt() - 1; int offboardSwitchChannel = getParameterFact(-1, "RC_MAP_OFFB_SW")->rawValue().toInt() - 1; double autoThreshold = getParameterFact(-1, "RC_AUTO_TH")->rawValue().toDouble(); double assistThreshold = getParameterFact(-1, "RC_ASSIST_TH")->rawValue().toDouble(); double acroThreshold = getParameterFact(-1, "RC_ACRO_TH")->rawValue().toDouble(); double posCtlThreshold = getParameterFact(-1, "RC_POSCTL_TH")->rawValue().toDouble(); double loiterThreshold = getParameterFact(-1, "RC_LOITER_TH")->rawValue().toDouble(); double returnThreshold = getParameterFact(-1, "RC_RETURN_TH")->rawValue().toDouble(); double offboardThreshold = getParameterFact(-1, "RC_OFFB_TH")->rawValue().toDouble(); if (modeSwitchChannel >= 0) { if (offboardSwitchChannel >= 0 && _rcValues[offboardSwitchChannel] >= offboardThreshold) { _offboardModeSelected = true; } else if (returnSwitchChannel >= 0 && _rcValues[returnSwitchChannel] >= returnThreshold) { _returnModeSelected = true; } else { if (_rcValues[modeSwitchChannel] >= autoThreshold) { _autoModeSelected = true; if (loiterSwitchChannel >= 0 && _rcValues[loiterSwitchChannel] >= loiterThreshold) { _loiterModeSelected = true; } else { _missionModeSelected = true; } } else if (_rcValues[modeSwitchChannel] >= assistThreshold) { _assistModeSelected = true; if (posCtlSwitchChannel >= 0 && _rcValues[posCtlSwitchChannel] >= posCtlThreshold) { _posCtlModeSelected = true; } else { _altCtlModeSelected = true; } } else if (acroSwitchChannel >= 0 && _rcValues[acroSwitchChannel] >= acroThreshold) { _acroModeSelected = true; } else { _manualModeSelected = true; } } } emit modesSelectedChanged(); } void FlightModesComponentController::_recalcModeRows(void) { int modeSwitchChannel = getParameterFact(-1, "RC_MAP_MODE_SW")->rawValue().toInt(); int acroSwitchChannel = getParameterFact(-1, "RC_MAP_ACRO_SW")->rawValue().toInt(); int posCtlSwitchChannel = getParameterFact(-1, "RC_MAP_POSCTL_SW")->rawValue().toInt(); int loiterSwitchChannel = getParameterFact(-1, "RC_MAP_LOITER_SW")->rawValue().toInt(); int returnSwitchChannel = getParameterFact(-1, "RC_MAP_RETURN_SW")->rawValue().toInt(); int offboardSwitchChannel = getParameterFact(-1, "RC_MAP_OFFB_SW")->rawValue().toInt(); if (modeSwitchChannel == 0) { _acroModeRow = 0; _assistModeRow = 1; _autoModeRow = 2; _altCtlModeRow = 3; _posCtlModeRow = 4; _loiterModeRow = 5; _missionModeRow = 6; _returnModeRow = 7; _offboardModeRow = 8; } else { int row = 0; // First set is all switches on main mode channel if (acroSwitchChannel == modeSwitchChannel) { _acroModeRow = row++; } _assistModeRow = row++; if (posCtlSwitchChannel == modeSwitchChannel) { _altCtlModeRow = row++; _posCtlModeRow = row++; } else if (posCtlSwitchChannel == 0) { _altCtlModeRow = row++; } _autoModeRow = row++; if (loiterSwitchChannel == modeSwitchChannel) { _missionModeRow = row++; _loiterModeRow = row++; } else if (loiterSwitchChannel == 0) { _missionModeRow = row++; } if (returnSwitchChannel == modeSwitchChannel) { _returnModeRow = row++; } if (offboardSwitchChannel == modeSwitchChannel) { _offboardModeRow = row++; } // Now individual enabled switches not on main mode channel if (acroSwitchChannel != 0 && acroSwitchChannel != modeSwitchChannel) { _acroModeRow = row++; } if (posCtlSwitchChannel != 0 && posCtlSwitchChannel != modeSwitchChannel) { _altCtlModeRow = row++; _posCtlModeRow = row++; } if (loiterSwitchChannel != 0 && loiterSwitchChannel != modeSwitchChannel) { _missionModeRow = row++; _loiterModeRow = row++; } if (returnSwitchChannel != 0 && returnSwitchChannel != modeSwitchChannel) { _returnModeRow = row++; } if (offboardSwitchChannel != 0 && offboardSwitchChannel != modeSwitchChannel) { _offboardModeRow = row++; } // Now disabled switches if (acroSwitchChannel == 0) { _acroModeRow = row++; } if (posCtlSwitchChannel == 0) { _posCtlModeRow = row++; } if (loiterSwitchChannel == 0) { _loiterModeRow = row++; } if (returnSwitchChannel == 0) { _returnModeRow = row++; } if (offboardSwitchChannel == 0) { _offboardModeRow = row++; } } emit modeRowsChanged(); } double FlightModesComponentController::manualModeThreshold(void) { return 0.0; } double FlightModesComponentController::assistModeThreshold(void) { return getParameterFact(-1, "RC_ASSIST_TH")->rawValue().toDouble(); } double FlightModesComponentController::autoModeThreshold(void) { return getParameterFact(-1, "RC_AUTO_TH")->rawValue().toDouble(); } double FlightModesComponentController::acroModeThreshold(void) { return getParameterFact(-1, "RC_ACRO_TH")->rawValue().toDouble(); } double FlightModesComponentController::altCtlModeThreshold(void) { return _assistModeVisible ? 0.0 : getParameterFact(-1, "RC_ASSIST_TH")->rawValue().toDouble(); } double FlightModesComponentController::posCtlModeThreshold(void) { return getParameterFact(-1, "RC_POSCTL_TH")->rawValue().toDouble(); } double FlightModesComponentController::missionModeThreshold(void) { return _autoModeVisible ? 0.0 : getParameterFact(-1, "RC_AUTO_TH")->rawValue().toDouble(); } double FlightModesComponentController::loiterModeThreshold(void) { return getParameterFact(-1, "RC_LOITER_TH")->rawValue().toDouble(); } double FlightModesComponentController::returnModeThreshold(void) { return getParameterFact(-1, "RC_RETURN_TH")->rawValue().toDouble(); } double FlightModesComponentController::offboardModeThreshold(void) { return getParameterFact(-1, "RC_OFFB_TH")->rawValue().toDouble(); } void FlightModesComponentController::setAssistModeThreshold(double threshold) { getParameterFact(-1, "RC_ASSIST_TH")->setRawValue(threshold); _recalcModeSelections(); } void FlightModesComponentController::setAutoModeThreshold(double threshold) { getParameterFact(-1, "RC_AUTO_TH")->setRawValue(threshold); _recalcModeSelections(); } void FlightModesComponentController::setAcroModeThreshold(double threshold) { getParameterFact(-1, "RC_ACRO_TH")->setRawValue(threshold); _recalcModeSelections(); } void FlightModesComponentController::setAltCtlModeThreshold(double threshold) { setAssistModeThreshold(threshold); } void FlightModesComponentController::setPosCtlModeThreshold(double threshold) { getParameterFact(-1, "RC_POSCTL_TH")->setRawValue(threshold); _recalcModeSelections(); } void FlightModesComponentController::setMissionModeThreshold(double threshold) { setAutoModeThreshold(threshold); } void FlightModesComponentController::setLoiterModeThreshold(double threshold) { getParameterFact(-1, "RC_LOITER_TH")->setRawValue(threshold); _recalcModeSelections(); } void FlightModesComponentController::setReturnModeThreshold(double threshold) { getParameterFact(-1, "RC_RETURN_TH")->setRawValue(threshold); _recalcModeSelections(); } void FlightModesComponentController::setOffboardModeThreshold(double threshold) { getParameterFact(-1, "RC_OFFB_TH")->setRawValue(threshold); _recalcModeSelections(); } int FlightModesComponentController::_channelToChannelIndex(int channel) { return _channelListModelChannel.lastIndexOf(channel); } int FlightModesComponentController::_channelToChannelIndex(const QString& channelParam) { return _channelToChannelIndex(getParameterFact(-1, channelParam)->rawValue().toInt()); } int FlightModesComponentController::manualModeChannelIndex(void) { return _channelToChannelIndex("RC_MAP_MODE_SW"); } int FlightModesComponentController::assistModeChannelIndex(void) { return _channelToChannelIndex("RC_MAP_MODE_SW"); } int FlightModesComponentController::autoModeChannelIndex(void) { return _channelToChannelIndex("RC_MAP_MODE_SW"); } int FlightModesComponentController::acroModeChannelIndex(void) { return _channelToChannelIndex("RC_MAP_ACRO_SW"); } int FlightModesComponentController::altCtlModeChannelIndex(void) { int posCtlSwitchChannel = getParameterFact(-1, "RC_MAP_POSCTL_SW")->rawValue().toInt(); if (posCtlSwitchChannel == 0) { return _channelToChannelIndex("RC_MAP_MODE_SW"); } else { return _channelToChannelIndex(posCtlSwitchChannel); } } int FlightModesComponentController::posCtlModeChannelIndex(void) { return _channelToChannelIndex("RC_MAP_POSCTL_SW"); } int FlightModesComponentController::loiterModeChannelIndex(void) { return _channelToChannelIndex("RC_MAP_LOITER_SW"); } int FlightModesComponentController::missionModeChannelIndex(void) { int loiterSwitchChannel = getParameterFact(-1, "RC_MAP_LOITER_SW")->rawValue().toInt(); if (loiterSwitchChannel == 0) { return _channelToChannelIndex("RC_MAP_MODE_SW"); } else { return _channelToChannelIndex(loiterSwitchChannel); } } int FlightModesComponentController::returnModeChannelIndex(void) { return _channelToChannelIndex("RC_MAP_RETURN_SW"); } int FlightModesComponentController::offboardModeChannelIndex(void) { return _channelToChannelIndex("RC_MAP_OFFB_SW"); } int FlightModesComponentController::_channelIndexToChannel(int index) { return _channelListModelChannel[index]; } void FlightModesComponentController::setManualModeChannelIndex(int index) { getParameterFact(-1, "RC_MAP_MODE_SW")->setRawValue(_channelIndexToChannel(index)); _recalcModeSelections(); _recalcModeRows(); emit channelIndicesChanged(); } void FlightModesComponentController::setAcroModeChannelIndex(int index) { getParameterFact(-1, "RC_MAP_ACRO_SW")->setRawValue(_channelIndexToChannel(index)); _recalcModeSelections(); _recalcModeRows(); } void FlightModesComponentController::setPosCtlModeChannelIndex(int index) { int channel = _channelIndexToChannel(index); getParameterFact(-1, "RC_MAP_POSCTL_SW")->setRawValue(channel); if (channel == 0) { // PosCtl disabled so AltCtl must move back to main Mode switch _assistModeVisible = false; } else { // Assist mode is visible if AltCtl/PosCtl are on seperate channel from main Mode switch _assistModeVisible = channel != getParameterFact(-1, "RC_MAP_MODE_SW")->rawValue().toInt(); } emit modesVisibleChanged(); _recalcModeSelections(); _recalcModeRows(); emit channelIndicesChanged(); } void FlightModesComponentController::setLoiterModeChannelIndex(int index) { int channel = _channelIndexToChannel(index); getParameterFact(-1, "RC_MAP_LOITER_SW")->setRawValue(channel); if (channel == 0) { // Loiter disabled so Mission must move back to main Mode switch _autoModeVisible = false; } else { // Auto mode is visible if Mission/Loiter are on seperate channel from main Mode switch _autoModeVisible = channel != getParameterFact(-1, "RC_MAP_MODE_SW")->rawValue().toInt(); } emit modesVisibleChanged(); _recalcModeSelections(); _recalcModeRows(); emit channelIndicesChanged(); } void FlightModesComponentController::setReturnModeChannelIndex(int index) { getParameterFact(-1, "RC_MAP_RETURN_SW")->setRawValue(_channelIndexToChannel(index)); _recalcModeSelections(); _recalcModeRows(); emit channelIndicesChanged(); } void FlightModesComponentController::setOffboardModeChannelIndex(int index) { getParameterFact(-1, "RC_MAP_OFFB_SW")->setRawValue(_channelIndexToChannel(index)); _recalcModeSelections(); _recalcModeRows(); emit channelIndicesChanged(); } void FlightModesComponentController::generateThresholds(void) { // Reset all thresholds to 0.0 QStringList thresholdParams; thresholdParams << "RC_ASSIST_TH" << "RC_AUTO_TH" << "RC_ACRO_TH" << "RC_POSCTL_TH" << "RC_LOITER_TH" << "RC_RETURN_TH" << "RC_OFFB_TH"; foreach(QString thresholdParam, thresholdParams) { getParameterFact(-1, thresholdParam)->setRawValue(0.0f); } // Redistribute int modeChannel = getParameterFact(-1, "RC_MAP_MODE_SW")->rawValue().toInt(); int acroChannel = getParameterFact(-1, "RC_MAP_ACRO_SW")->rawValue().toInt(); int posCtlChannel = getParameterFact(-1, "RC_MAP_POSCTL_SW")->rawValue().toInt(); int loiterChannel = getParameterFact(-1, "RC_MAP_LOITER_SW")->rawValue().toInt(); int returnChannel = getParameterFact(-1, "RC_MAP_RETURN_SW")->rawValue().toInt(); int offboardChannel = getParameterFact(-1, "RC_MAP_OFFB_SW")->rawValue().toInt(); if (modeChannel != 0) { int positions = 3; // Manual/Assist/Auto always exist bool acroOnModeSwitch = modeChannel == acroChannel; bool posCtlOnModeSwitch = modeChannel == posCtlChannel; bool loiterOnModeSwitch = modeChannel == loiterChannel; bool returnOnModeSwitch = modeChannel == returnChannel; bool offboardOnModeSwitch = modeChannel == offboardChannel; positions += acroOnModeSwitch ? 1 : 0; positions += posCtlOnModeSwitch ? 1 : 0; positions += loiterOnModeSwitch ? 1 : 0; positions += returnOnModeSwitch ? 1 : 0; positions += offboardOnModeSwitch ? 1 : 0; float increment = 1.0f / positions; float currentThreshold = 0.0f; if (acroOnModeSwitch) { currentThreshold += increment; getParameterFact(-1, "RC_ACRO_TH")->setRawValue(currentThreshold); acroChannel = 0; } currentThreshold += increment; getParameterFact(-1, "RC_ASSIST_TH")->setRawValue(currentThreshold); if (posCtlOnModeSwitch) { currentThreshold += increment; getParameterFact(-1, "RC_POSCTL_TH")->setRawValue(currentThreshold); posCtlChannel = 0; } currentThreshold += increment; getParameterFact(-1, "RC_AUTO_TH")->setRawValue(currentThreshold); if (loiterOnModeSwitch) { currentThreshold += increment; getParameterFact(-1, "RC_LOITER_TH")->setRawValue(currentThreshold); loiterChannel = 0; } if (returnOnModeSwitch) { currentThreshold += increment; getParameterFact(-1, "RC_RETURN_TH")->setRawValue(currentThreshold); returnChannel = 0; } if (offboardOnModeSwitch) { currentThreshold += increment; getParameterFact(-1, "RC_OFFB_TH")->setRawValue(currentThreshold); offboardChannel = 0; } } if (acroChannel != 0) { // If only two positions don't set threshold at midrange. Setting to 0.25 // allows for this channel to work with either a two or three position switch getParameterFact(-1, "RC_ACRO_TH")->setRawValue(0.25f); } if (posCtlChannel != 0) { getParameterFact(-1, "RC_POSCTL_TH")->setRawValue(0.25f); } if (loiterChannel != 0) { getParameterFact(-1, "RC_LOITER_TH")->setRawValue(0.25f); } if (returnChannel != 0) { getParameterFact(-1, "RC_RETURN_TH")->setRawValue(0.25f); } if (offboardChannel != 0) { getParameterFact(-1, "RC_OFFB_TH")->setRawValue(0.25f); } emit thresholdsChanged(); }