/**************************************************************************** * * (c) 2009-2016 QGROUNDCONTROL PROJECT * * QGroundControl is licensed according to the terms in the file * COPYING.md in the root of the source code directory. * ****************************************************************************/ #include "StructureScanComplexItem.h" #include "JsonHelper.h" #include "MissionController.h" #include "QGCGeo.h" #include "QGroundControlQmlGlobal.h" #include "QGCQGeoCoordinate.h" #include "SettingsManager.h" #include "AppSettings.h" #include "QGCQGeoCoordinate.h" #include QGC_LOGGING_CATEGORY(StructureScanComplexItemLog, "StructureScanComplexItemLog") const char* StructureScanComplexItem::_altitudeFactName = "Altitude"; const char* StructureScanComplexItem::_structureHeightFactName = "StructureHeight"; const char* StructureScanComplexItem::_layersFactName = "Layers"; const char* StructureScanComplexItem::jsonComplexItemTypeValue = "StructureScan"; const char* StructureScanComplexItem::_jsonCameraCalcKey = "CameraCalc"; const char* StructureScanComplexItem::_jsonAltitudeRelativeKey = "altitudeRelative"; QMap StructureScanComplexItem::_metaDataMap; StructureScanComplexItem::StructureScanComplexItem(Vehicle* vehicle, bool flyView, QObject* parent) : ComplexMissionItem (vehicle, flyView, parent) , _sequenceNumber (0) , _dirty (false) , _altitudeRelative (true) , _entryVertex (0) , _ignoreRecalc (false) , _scanDistance (0.0) , _cameraShots (0) , _cameraMinTriggerInterval (0) , _cameraCalc (vehicle) , _altitudeFact (0, _altitudeFactName, FactMetaData::valueTypeDouble) , _layersFact (0, _layersFactName, FactMetaData::valueTypeUint32) { _editorQml = "qrc:/qml/StructureScanEditor.qml"; if (_metaDataMap.isEmpty()) { _metaDataMap = FactMetaData::createMapFromJsonFile(QStringLiteral(":/json/StructureScan.SettingsGroup.json"), NULL /* QObject parent */); } _altitudeFact.setMetaData (_metaDataMap[_altitudeFactName]); _layersFact.setMetaData (_metaDataMap[_layersFactName]); _altitudeFact.setRawValue (_altitudeFact.rawDefaultValue()); _layersFact.setRawValue (_layersFact.rawDefaultValue()); _altitudeFact.setRawValue(qgcApp()->toolbox()->settingsManager()->appSettings()->defaultMissionItemAltitude()->rawValue()); connect(&_altitudeFact, &Fact::valueChanged, this, &StructureScanComplexItem::_setDirty); connect(&_layersFact, &Fact::valueChanged, this, &StructureScanComplexItem::_setDirty); connect(&_layersFact, &Fact::valueChanged, this, &StructureScanComplexItem::_recalcLayerInfo); connect(&_structureHeightFact, &Fact::valueChanged, this, &StructureScanComplexItem::_recalcLayerInfo); connect(_cameraCalc.adjustedFootprintFrontal(), &Fact::valueChanged, this, &StructureScanComplexItem::_recalcLayerInfo); connect(this, &StructureScanComplexItem::altitudeRelativeChanged, this, &StructureScanComplexItem::_setDirty); connect(this, &StructureScanComplexItem::altitudeRelativeChanged, this, &StructureScanComplexItem::coordinateHasRelativeAltitudeChanged); connect(this, &StructureScanComplexItem::altitudeRelativeChanged, this, &StructureScanComplexItem::exitCoordinateHasRelativeAltitudeChanged); connect(&_altitudeFact, &Fact::valueChanged, this, &StructureScanComplexItem::_updateCoordinateAltitudes); connect(&_structurePolygon, &QGCMapPolygon::dirtyChanged, this, &StructureScanComplexItem::_polygonDirtyChanged); connect(&_structurePolygon, &QGCMapPolygon::countChanged, this, &StructureScanComplexItem::_polygonCountChanged); connect(&_structurePolygon, &QGCMapPolygon::pathChanged, this, &StructureScanComplexItem::_rebuildFlightPolygon); connect(&_flightPolygon, &QGCMapPolygon::pathChanged, this, &StructureScanComplexItem::_flightPathChanged); connect(_cameraCalc.distanceToSurface(), &Fact::valueChanged, this, &StructureScanComplexItem::_rebuildFlightPolygon); connect(&_flightPolygon, &QGCMapPolygon::pathChanged, this, &StructureScanComplexItem::_recalcCameraShots); connect(_cameraCalc.adjustedFootprintSide(), &Fact::valueChanged, this, &StructureScanComplexItem::_recalcCameraShots); connect(&_layersFact, &Fact::valueChanged, this, &StructureScanComplexItem::_recalcCameraShots); _recalcLayerInfo(); } void StructureScanComplexItem::_setScanDistance(double scanDistance) { if (!qFuzzyCompare(_scanDistance, scanDistance)) { _scanDistance = scanDistance; emit complexDistanceChanged(); } } void StructureScanComplexItem::_setCameraShots(int cameraShots) { if (_cameraShots != cameraShots) { _cameraShots = cameraShots; emit cameraShotsChanged(this->cameraShots()); } } void StructureScanComplexItem::_clearInternal(void) { setDirty(true); emit specifiesCoordinateChanged(); emit lastSequenceNumberChanged(lastSequenceNumber()); } void StructureScanComplexItem::_polygonCountChanged(int count) { Q_UNUSED(count); emit lastSequenceNumberChanged(lastSequenceNumber()); } int StructureScanComplexItem::lastSequenceNumber(void) const { return _sequenceNumber + (_layersFact.rawValue().toInt() * ((_flightPolygon.count() + 1) + // 1 waypoint for each polygon vertex + 1 to go back to first polygon vertex for each layer 2)) + // Camera trigger start/stop for each layer 2; // ROI_WPNEXT_OFFSET and ROI_NONE commands } void StructureScanComplexItem::setDirty(bool dirty) { if (_dirty != dirty) { _dirty = dirty; emit dirtyChanged(_dirty); } } void StructureScanComplexItem::save(QJsonArray& missionItems) { QJsonObject saveObject; // Header saveObject[JsonHelper::jsonVersionKey] = 2; saveObject[VisualMissionItem::jsonTypeKey] = VisualMissionItem::jsonTypeComplexItemValue; saveObject[ComplexMissionItem::jsonComplexItemTypeKey] = jsonComplexItemTypeValue; saveObject[_altitudeFactName] = _altitudeFact.rawValue().toDouble(); saveObject[_structureHeightFactName] = _structureHeightFact.rawValue().toDouble(); saveObject[_jsonAltitudeRelativeKey] = _altitudeRelative; saveObject[_layersFactName] = _layersFact.rawValue().toDouble(); QJsonObject cameraCalcObject; _cameraCalc.save(cameraCalcObject); saveObject[_jsonCameraCalcKey] = cameraCalcObject; _structurePolygon.saveToJson(saveObject); missionItems.append(saveObject); } void StructureScanComplexItem::setSequenceNumber(int sequenceNumber) { if (_sequenceNumber != sequenceNumber) { _sequenceNumber = sequenceNumber; emit sequenceNumberChanged(sequenceNumber); emit lastSequenceNumberChanged(lastSequenceNumber()); } } bool StructureScanComplexItem::load(const QJsonObject& complexObject, int sequenceNumber, QString& errorString) { QList keyInfoList = { { JsonHelper::jsonVersionKey, QJsonValue::Double, true }, { VisualMissionItem::jsonTypeKey, QJsonValue::String, true }, { ComplexMissionItem::jsonComplexItemTypeKey, QJsonValue::String, true }, { QGCMapPolygon::jsonPolygonKey, QJsonValue::Array, true }, { _altitudeFactName, QJsonValue::Double, true }, { _structureHeightFactName, QJsonValue::Double, true }, { _jsonAltitudeRelativeKey, QJsonValue::Bool, true }, { _layersFactName, QJsonValue::Double, true }, { _jsonCameraCalcKey, QJsonValue::Object, true }, }; if (!JsonHelper::validateKeys(complexObject, keyInfoList, errorString)) { return false; } _structurePolygon.clear(); QString itemType = complexObject[VisualMissionItem::jsonTypeKey].toString(); QString complexType = complexObject[ComplexMissionItem::jsonComplexItemTypeKey].toString(); if (itemType != VisualMissionItem::jsonTypeComplexItemValue || complexType != jsonComplexItemTypeValue) { errorString = tr("%1 does not support loading this complex mission item type: %2:%3").arg(qgcApp()->applicationName()).arg(itemType).arg(complexType); return false; } int version = complexObject[JsonHelper::jsonVersionKey].toInt(); if (version != 2) { errorString = tr("%1 complex item version %2 not supported").arg(jsonComplexItemTypeValue).arg(version); return false; } setSequenceNumber(sequenceNumber); // Load CameraCalc first since it will trigger camera name change which will trounce gimbal angles if (!_cameraCalc.load(complexObject[_jsonCameraCalcKey].toObject(), errorString)) { return false; } _altitudeFact.setRawValue (complexObject[_altitudeFactName].toDouble()); _layersFact.setRawValue (complexObject[_layersFactName].toDouble()); _altitudeRelative = complexObject[_jsonAltitudeRelativeKey].toBool(true); if (!_structurePolygon.loadFromJson(complexObject, true /* required */, errorString)) { _structurePolygon.clear(); return false; } return true; } void StructureScanComplexItem::_flightPathChanged(void) { emit coordinateChanged(coordinate()); emit exitCoordinateChanged(exitCoordinate()); emit greatestDistanceToChanged(); } double StructureScanComplexItem::greatestDistanceTo(const QGeoCoordinate &other) const { double greatestDistance = 0.0; QList vertices = _flightPolygon.coordinateList(); for (int i=0; i greatestDistance) { greatestDistance = distance; } } return greatestDistance; } bool StructureScanComplexItem::specifiesCoordinate(void) const { return _flightPolygon.count() > 2; } void StructureScanComplexItem::appendMissionItems(QList& items, QObject* missionItemParent) { int seqNum = _sequenceNumber; double baseAltitude = _altitudeFact.rawValue().toDouble(); MissionItem* item = new MissionItem(seqNum++, MAV_CMD_DO_SET_ROI_WPNEXT_OFFSET, MAV_FRAME_MISSION, 0, 0, 0, 0, // param 1-4 not used 0, 0, // Pitch and Roll stay in standard orientation 90, // 90 degreee yaw offset to point to structure true, // autoContinue false, // isCurrentItem missionItemParent); items.append(item); for (int layer=0; layer<_layersFact.rawValue().toInt(); layer++) { bool addTriggerStart = true; // baseAltitude is the bottom of the first layer. Hence we need to move up half the distance of the camera footprint to center the camera // within the layer. double layerAltitude = baseAltitude + (_cameraCalc.adjustedFootprintFrontal()->rawValue().toDouble() / 2.0) + (layer * _cameraCalc.adjustedFootprintFrontal()->rawValue().toDouble()); for (int i=0; i<_flightPolygon.count(); i++) { QGeoCoordinate vertexCoord = _flightPolygon.vertexCoordinate(i); MissionItem* item = new MissionItem(seqNum++, MAV_CMD_NAV_WAYPOINT, _altitudeRelative ? MAV_FRAME_GLOBAL_RELATIVE_ALT : MAV_FRAME_GLOBAL, 0, // No hold time 0.0, // No acceptance radius specified 0.0, // Pass through waypoint 90, //std::numeric_limits::quiet_NaN(), // Yaw unchanged vertexCoord.latitude(), vertexCoord.longitude(), layerAltitude, true, // autoContinue false, // isCurrentItem missionItemParent); items.append(item); if (addTriggerStart) { addTriggerStart = false; item = new MissionItem(seqNum++, MAV_CMD_DO_SET_CAM_TRIGG_DIST, MAV_FRAME_MISSION, _cameraCalc.adjustedFootprintSide()->rawValue().toDouble(), // trigger distance 0, // shutter integration (ignore) 1, // trigger immediately when starting 0, 0, 0, 0, // param 4-7 unused true, // autoContinue false, // isCurrentItem missionItemParent); items.append(item); } } QGeoCoordinate vertexCoord = _flightPolygon.vertexCoordinate(0); MissionItem* item = new MissionItem(seqNum++, MAV_CMD_NAV_WAYPOINT, _altitudeRelative ? MAV_FRAME_GLOBAL_RELATIVE_ALT : MAV_FRAME_GLOBAL, 0, // No hold time 0.0, // No acceptance radius specified 0.0, // Pass through waypoint std::numeric_limits::quiet_NaN(), // Yaw unchanged vertexCoord.latitude(), vertexCoord.longitude(), layerAltitude, true, // autoContinue false, // isCurrentItem missionItemParent); items.append(item); item = new MissionItem(seqNum++, MAV_CMD_DO_SET_CAM_TRIGG_DIST, MAV_FRAME_MISSION, 0, // stop triggering 0, // shutter integration (ignore) 0, // trigger immediately when starting 0, 0, 0, 0, // param 4-7 unused true, // autoContinue false, // isCurrentItem missionItemParent); items.append(item); } item = new MissionItem(seqNum++, MAV_CMD_DO_SET_ROI_NONE, MAV_FRAME_MISSION, 0, 0, 0,0, 0, 0, 0, // param 1-7 not used true, // autoContinue false, // isCurrentItem missionItemParent); items.append(item); } int StructureScanComplexItem::cameraShots(void) const { return true /*_triggerCamera()*/ ? _cameraShots : 0; } void StructureScanComplexItem::setMissionFlightStatus(MissionController::MissionFlightStatus_t& missionFlightStatus) { ComplexMissionItem::setMissionFlightStatus(missionFlightStatus); if (!qFuzzyCompare(_cruiseSpeed, missionFlightStatus.vehicleSpeed)) { _cruiseSpeed = missionFlightStatus.vehicleSpeed; emit timeBetweenShotsChanged(); } } void StructureScanComplexItem::_setDirty(void) { setDirty(true); } void StructureScanComplexItem::applyNewAltitude(double newAltitude) { _altitudeFact.setRawValue(newAltitude); } void StructureScanComplexItem::_polygonDirtyChanged(bool dirty) { if (dirty) { setDirty(true); } } double StructureScanComplexItem::timeBetweenShots(void) { return _cruiseSpeed == 0 ? 0 : _cameraCalc.adjustedFootprintSide()->rawValue().toDouble() / _cruiseSpeed; } QGeoCoordinate StructureScanComplexItem::coordinate(void) const { if (_flightPolygon.count() > 0) { int entryVertex = qMax(qMin(_entryVertex, _flightPolygon.count() - 1), 0); return _flightPolygon.vertexCoordinate(entryVertex); } else { return QGeoCoordinate(); } } QGeoCoordinate StructureScanComplexItem::exitCoordinate(void) const { return coordinate(); } void StructureScanComplexItem::_updateCoordinateAltitudes(void) { emit coordinateChanged(coordinate()); emit exitCoordinateChanged(exitCoordinate()); } void StructureScanComplexItem::rotateEntryPoint(void) { _entryVertex++; if (_entryVertex >= _flightPolygon.count()) { _entryVertex = 0; } emit coordinateChanged(coordinate()); emit exitCoordinateChanged(exitCoordinate()); } void StructureScanComplexItem::_rebuildFlightPolygon(void) { _flightPolygon = _structurePolygon; _flightPolygon.offset(_cameraCalc.distanceToSurface()->rawValue().toDouble()); } void StructureScanComplexItem::_recalcCameraShots(void) { if (_flightPolygon.count() < 3) { _setCameraShots(0); return; } // Determine the distance for each polygon traverse double distance = 0; for (int i=0; i<_flightPolygon.count(); i++) { QGeoCoordinate coord1 = _flightPolygon.vertexCoordinate(i); QGeoCoordinate coord2 = _flightPolygon.vertexCoordinate(i + 1 == _flightPolygon.count() ? 0 : i + 1); distance += coord1.distanceTo(coord2); } if (distance == 0.0) { _setCameraShots(0); return; } int cameraShots = distance / _cameraCalc.adjustedFootprintSide()->rawValue().toDouble(); _setCameraShots(cameraShots * _layersFact.rawValue().toInt()); } void StructureScanComplexItem::setAltitudeRelative(bool altitudeRelative) { if (altitudeRelative != _altitudeRelative) { _altitudeRelative = altitudeRelative; emit altitudeRelativeChanged(altitudeRelative); } } void StructureScanComplexItem::_recalcLayerInfo(void) { if (_cameraCalc.isManualCamera()) { // Structure height is calculated from layer count, layer height. _structureHeightFact.setSendValueChangedSignals(false); _structureHeightFact.setRawValue(_layersFact.rawValue().toInt() * _cameraCalc.adjustedFootprintFrontal()->rawValue().toDouble()); _structureHeightFact.clearDeferredValueChangeSignal(); _structureHeightFact.setSendValueChangedSignals(true); } else { // Layer count is calculated from structure and layer heights _layersFact.setSendValueChangedSignals(false); _layersFact.setRawValue(qCeil(_structureHeightFact.rawValue().toDouble() / _cameraCalc.adjustedFootprintFrontal()->rawValue().toDouble())); _layersFact.clearDeferredValueChangeSignal(); _layersFact.setSendValueChangedSignals(true); } }