/**************************************************************************** * * (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 "CorridorScanComplexItem.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(CorridorScanComplexItemLog, "CorridorScanComplexItemLog") const char* CorridorScanComplexItem::settingsGroup = "CorridorScan"; const char* CorridorScanComplexItem::corridorWidthName = "CorridorWidth"; const char* CorridorScanComplexItem::_jsonEntryPointKey = "EntryPoint"; const char* CorridorScanComplexItem::jsonComplexItemTypeValue = "CorridorScan"; CorridorScanComplexItem::CorridorScanComplexItem(Vehicle* vehicle, bool flyView, const QString& kmlFile, QObject* parent) : TransectStyleComplexItem (vehicle, flyView, settingsGroup, parent) , _entryPoint (0) , _metaDataMap (FactMetaData::createMapFromJsonFile(QStringLiteral(":/json/CorridorScan.SettingsGroup.json"), this)) , _corridorWidthFact (settingsGroup, _metaDataMap[corridorWidthName]) { _editorQml = "qrc:/qml/CorridorScanEditor.qml"; // We override the altitude to the mission default if (_cameraCalc.isManualCamera() || !_cameraCalc.valueSetIsDistance()->rawValue().toBool()) { _cameraCalc.distanceToSurface()->setRawValue(qgcApp()->toolbox()->settingsManager()->appSettings()->defaultMissionItemAltitude()->rawValue()); } connect(&_corridorWidthFact, &Fact::valueChanged, this, &CorridorScanComplexItem::_setDirty); connect(&_corridorPolyline, &QGCMapPolyline::pathChanged, this, &CorridorScanComplexItem::_setDirty); connect(&_cameraCalc, &CameraCalc::distanceToSurfaceRelativeChanged, this, &CorridorScanComplexItem::coordinateHasRelativeAltitudeChanged); connect(&_cameraCalc, &CameraCalc::distanceToSurfaceRelativeChanged, this, &CorridorScanComplexItem::exitCoordinateHasRelativeAltitudeChanged); connect(&_corridorPolyline, &QGCMapPolyline::dirtyChanged, this, &CorridorScanComplexItem::_polylineDirtyChanged); connect(&_corridorPolyline, &QGCMapPolyline::pathChanged, this, &CorridorScanComplexItem::_rebuildCorridorPolygon); connect(&_corridorWidthFact, &Fact::valueChanged, this, &CorridorScanComplexItem::_rebuildCorridorPolygon); if (!kmlFile.isEmpty()) { _corridorPolyline.loadKMLFile(kmlFile); _corridorPolyline.setDirty(false); } setDirty(false); } void CorridorScanComplexItem::save(QJsonArray& planItems) { QJsonObject saveObject; _save(saveObject); saveObject[JsonHelper::jsonVersionKey] = 2; saveObject[VisualMissionItem::jsonTypeKey] = VisualMissionItem::jsonTypeComplexItemValue; saveObject[ComplexMissionItem::jsonComplexItemTypeKey] = jsonComplexItemTypeValue; saveObject[corridorWidthName] = _corridorWidthFact.rawValue().toDouble(); saveObject[_jsonEntryPointKey] = _entryPoint; _corridorPolyline.saveToJson(saveObject); planItems.append(saveObject); } bool CorridorScanComplexItem::load(const QJsonObject& complexObject, int sequenceNumber, QString& errorString) { // We don't recalc while loading since all the information we need is specified in the file _ignoreRecalc = true; QList keyInfoList = { { JsonHelper::jsonVersionKey, QJsonValue::Double, true }, { VisualMissionItem::jsonTypeKey, QJsonValue::String, true }, { ComplexMissionItem::jsonComplexItemTypeKey, QJsonValue::String, true }, { corridorWidthName, QJsonValue::Double, true }, { _jsonEntryPointKey, QJsonValue::Double, true }, { QGCMapPolyline::jsonPolylineKey, QJsonValue::Array, true }, }; if (!JsonHelper::validateKeys(complexObject, keyInfoList, errorString)) { _ignoreRecalc = false; return false; } if (!_corridorPolyline.loadFromJson(complexObject, true, errorString)) { _ignoreRecalc = false; return false; } 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); _ignoreRecalc = false; return false; } int version = complexObject[JsonHelper::jsonVersionKey].toInt(); if (version != 2) { errorString = tr("%1 complex item version %2 not supported").arg(jsonComplexItemTypeValue).arg(version); _ignoreRecalc = false; return false; } setSequenceNumber(sequenceNumber); if (!_load(complexObject, errorString)) { _ignoreRecalc = false; return false; } _corridorWidthFact.setRawValue (complexObject[corridorWidthName].toDouble()); _entryPoint = complexObject[_jsonEntryPointKey].toInt(); _ignoreRecalc = false; _recalcComplexDistance(); if (_cameraShots == 0) { // Shot count was possibly not available from plan file _recalcCameraShots(); } return true; } bool CorridorScanComplexItem::specifiesCoordinate(void) const { return _corridorPolyline.count() > 1; } int CorridorScanComplexItem::_transectCount(void) const { double transectSpacing = _cameraCalc.adjustedFootprintSide()->rawValue().toDouble(); double fullWidth = _corridorWidthFact.rawValue().toDouble(); return fullWidth > 0.0 ? qCeil(fullWidth / transectSpacing) : 1; } void CorridorScanComplexItem::_appendLoadedMissionItems(QList& items, QObject* missionItemParent) { qCDebug(CorridorScanComplexItemLog) << "_appendLoadedMissionItems"; int seqNum = _sequenceNumber; for (const MissionItem* loadedMissionItem: _loadedMissionItems) { MissionItem* item = new MissionItem(*loadedMissionItem, missionItemParent); item->setSequenceNumber(seqNum++); items.append(item); } } void CorridorScanComplexItem::_buildAndAppendMissionItems(QList& items, QObject* missionItemParent) { qCDebug(CorridorScanComplexItemLog) << "_buildAndAppendMissionItems"; // Now build the mission items from the transect points MissionItem* item; int seqNum = _sequenceNumber; bool imagesEverywhere = _cameraTriggerInTurnAroundFact.rawValue().toBool(); bool addTriggerAtBeginning = imagesEverywhere; bool firstOverallPoint = true; MAV_FRAME mavFrame = followTerrain() || !_cameraCalc.distanceToSurfaceRelative() ? MAV_FRAME_GLOBAL : MAV_FRAME_GLOBAL_RELATIVE_ALT; //qDebug() << "_buildAndAppendMissionItems"; for (const QList& transect: _transects) { bool transectEntry = true; //qDebug() << "start transect"; for (const CoordInfo_t& transectCoordInfo: transect) { //qDebug() << transectCoordInfo.coordType; item = new MissionItem(seqNum++, MAV_CMD_NAV_WAYPOINT, mavFrame, 0, // No hold time 0.0, // No acceptance radius specified 0.0, // Pass through waypoint std::numeric_limits::quiet_NaN(), // Yaw unchanged transectCoordInfo.coord.latitude(), transectCoordInfo.coord.longitude(), transectCoordInfo.coord.altitude(), true, // autoContinue false, // isCurrentItem missionItemParent); items.append(item); if (triggerCamera() && firstOverallPoint && addTriggerAtBeginning) { // Start triggering addTriggerAtBeginning = false; item = new MissionItem(seqNum++, MAV_CMD_DO_SET_CAM_TRIGG_DIST, MAV_FRAME_MISSION, _cameraCalc.adjustedFootprintFrontal()->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); } firstOverallPoint = false; // Possibly add trigger start/stop to survey area entrance/exit if (triggerCamera() && transectCoordInfo.coordType == TransectStyleComplexItem::CoordTypeSurveyEdge) { if (transectEntry) { // Start of transect, always start triggering. We do this even if we are taking images everywhere. // This allows a restart of the mission in mid-air without losing images from the entire mission. // At most you may lose part of a transect. item = new MissionItem(seqNum++, MAV_CMD_DO_SET_CAM_TRIGG_DIST, MAV_FRAME_MISSION, _cameraCalc.adjustedFootprintFrontal()->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); transectEntry = false; } else if (!imagesEverywhere && !transectEntry){ // End of transect, stop triggering 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); } } } } if (imagesEverywhere) { // Stop triggering MissionItem* 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); } } void CorridorScanComplexItem::appendMissionItems(QList& items, QObject* missionItemParent) { if (_loadedMissionItems.count()) { // We have mission items from the loaded plan, use those _appendLoadedMissionItems(items, missionItemParent); } else { // Build the mission items on the fly _buildAndAppendMissionItems(items, missionItemParent); } } void CorridorScanComplexItem::applyNewAltitude(double newAltitude) { _cameraCalc.valueSetIsDistance()->setRawValue(true); _cameraCalc.distanceToSurface()->setRawValue(newAltitude); _cameraCalc.setDistanceToSurfaceRelative(true); } void CorridorScanComplexItem::_polylineDirtyChanged(bool dirty) { if (dirty) { setDirty(true); } } void CorridorScanComplexItem::rotateEntryPoint(void) { _entryPoint++; if (_entryPoint > 3) { _entryPoint = 0; } _rebuildTransects(); } void CorridorScanComplexItem::_rebuildCorridorPolygon(void) { if (_corridorPolyline.count() < 2) { _surveyAreaPolygon.clear(); return; } double halfWidth = _corridorWidthFact.rawValue().toDouble() / 2.0; QList firstSideVertices = _corridorPolyline.offsetPolyline(halfWidth); QList secondSideVertices = _corridorPolyline.offsetPolyline(-halfWidth); _surveyAreaPolygon.clear(); QList rgCoord; for (const QGeoCoordinate& vertex: firstSideVertices) { rgCoord.append(vertex); } for (int i=secondSideVertices.count() - 1; i >= 0; i--) { rgCoord.append(secondSideVertices[i]); } _surveyAreaPolygon.appendVertices(rgCoord); } void CorridorScanComplexItem::_rebuildTransectsPhase1(void) { if (_ignoreRecalc) { return; } // If the transects are getting rebuilt then any previsouly loaded mission items are now invalid if (_loadedMissionItemsParent) { _loadedMissionItems.clear(); _loadedMissionItemsParent->deleteLater(); _loadedMissionItemsParent = NULL; } _transects.clear(); _transectsPathHeightInfo.clear(); double transectSpacing = _cameraCalc.adjustedFootprintSide()->rawValue().toDouble(); double fullWidth = _corridorWidthFact.rawValue().toDouble(); double halfWidth = fullWidth / 2.0; int transectCount = _transectCount(); double normalizedTransectPosition = transectSpacing / 2.0; if (_corridorPolyline.count() >= 2) { // First build up the transects all going the same direction //qDebug() << "_rebuildTransectsPhase1"; for (int i=0; i transect; QList transectCoords = _corridorPolyline.offsetPolyline(offsetDistance); for (int j=1; j> reversedTransects; for (const QList& transect: _transects) { reversedTransects.prepend(transect); } _transects = reversedTransects; } if (reverseVertices) { for (int i=0; i<_transects.count(); i++) { QList reversedVertices; for (const TransectStyleComplexItem::CoordInfo_t& vertex: _transects[i]) { reversedVertices.prepend(vertex); } _transects[i] = reversedVertices; } } // Adjust to lawnmower pattern reverseVertices = false; for (int i=0; i<_transects.count(); i++) { // We must reverse the vertices for every other transect in order to make a lawnmower pattern QList transectVertices = _transects[i]; if (reverseVertices) { reverseVertices = false; QList reversedVertices; for (int j=transectVertices.count()-1; j>=0; j--) { reversedVertices.append(transectVertices[j]); } transectVertices = reversedVertices; } else { reverseVertices = true; } _transects[i] = transectVertices; } } } void CorridorScanComplexItem::_recalcComplexDistance(void) { _complexDistance = 0; for (int i=0; i<_visualTransectPoints.count() - 1; i++) { _complexDistance += _visualTransectPoints[i].value().distanceTo(_visualTransectPoints[i+1].value()); } emit complexDistanceChanged(); } void CorridorScanComplexItem::_recalcCameraShots(void) { double triggerDistance = _cameraCalc.adjustedFootprintFrontal()->rawValue().toDouble(); if (triggerDistance == 0) { _cameraShots = 0; } else { if (_cameraTriggerInTurnAroundFact.rawValue().toBool()) { _cameraShots = qCeil(_complexDistance / triggerDistance); } else { int singleTransectImageCount = qCeil(_corridorPolyline.length() / triggerDistance); _cameraShots = singleTransectImageCount * _transectCount(); } } emit cameraShotsChanged(); } bool CorridorScanComplexItem::readyForSave(void) const { return TransectStyleComplexItem::readyForSave(); } double CorridorScanComplexItem::timeBetweenShots(void) { return _cruiseSpeed == 0 ? 0 : _cameraCalc.adjustedFootprintFrontal()->rawValue().toDouble() / _cruiseSpeed; }