/**************************************************************************** * * (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 "TerrainQuery.h" #include #include #include #include #include #include #include #include #include QGC_LOGGING_CATEGORY(TerrainQueryLog, "TerrainQueryLog") Q_GLOBAL_STATIC(TerrainAtCoordinateBatchManager, _TerrainAtCoordinateBatchManager) TerrainAirMapQuery::TerrainAirMapQuery(QObject* parent) : TerrainQueryInterface(parent) { } void TerrainAirMapQuery::requestCoordinateHeights(const QList& coordinates) { QString points; foreach (const QGeoCoordinate& coord, coordinates) { points += QString::number(coord.latitude(), 'f', 10) + "," + QString::number(coord.longitude(), 'f', 10) + ","; } points = points.mid(0, points.length() - 1); // remove the last ',' from string QUrlQuery query; query.addQueryItem(QStringLiteral("points"), points); _queryMode = QueryModeCoordinates; _sendQuery(QString() /* path */, query); } void TerrainAirMapQuery::requestPathHeights(const QGeoCoordinate& fromCoord, const QGeoCoordinate& toCoord) { QString points; points += QString::number(fromCoord.latitude(), 'f', 10) + "," + QString::number(fromCoord.longitude(), 'f', 10) + ","; points += QString::number(toCoord.latitude(), 'f', 10) + "," + QString::number(toCoord.longitude(), 'f', 10); QUrlQuery query; query.addQueryItem(QStringLiteral("points"), points); _queryMode = QueryModePath; _sendQuery(QStringLiteral("/path"), query); } void TerrainAirMapQuery::requestCarpetHeights(const QGeoCoordinate& swCoord, const QGeoCoordinate& neCoord, bool statsOnly) { QString points; points += QString::number(swCoord.latitude(), 'f', 10) + "," + QString::number(swCoord.longitude(), 'f', 10) + ","; points += QString::number(neCoord.latitude(), 'f', 10) + "," + QString::number(neCoord.longitude(), 'f', 10); QUrlQuery query; query.addQueryItem(QStringLiteral("points"), points); _queryMode = QueryModeCarpet; _carpetStatsOnly = statsOnly; _sendQuery(QStringLiteral("/carpet"), query); } void TerrainAirMapQuery::_sendQuery(const QString& path, const QUrlQuery& urlQuery) { QUrl url(QStringLiteral("https://api.airmap.com/elevation/v1/ele") + path); qCDebug(TerrainQueryLog) << "_sendQuery" << url; url.setQuery(urlQuery); QNetworkRequest request(url); QNetworkProxy tProxy; tProxy.setType(QNetworkProxy::DefaultProxy); _networkManager.setProxy(tProxy); QNetworkReply* networkReply = _networkManager.get(request); if (!networkReply) { qCDebug(TerrainQueryLog) << "QNetworkManager::Get did not return QNetworkReply"; _requestFailed(); return; } connect(networkReply, &QNetworkReply::finished, this, &TerrainAirMapQuery::_requestFinished); } void TerrainAirMapQuery::_requestFinished(void) { QNetworkReply* reply = qobject_cast(QObject::sender()); if (reply->error() != QNetworkReply::NoError) { qCDebug(TerrainQueryLog) << "_requestFinished error:data" << reply->error() << reply->readAll(); reply->deleteLater(); _requestFailed(); return; } QByteArray responseBytes = reply->readAll(); reply->deleteLater(); // Convert the response to Json QJsonParseError parseError; QJsonDocument responseJson = QJsonDocument::fromJson(responseBytes, &parseError); if (parseError.error != QJsonParseError::NoError) { qCDebug(TerrainQueryLog) << "_requestFinished unable to parse json:" << parseError.errorString(); _requestFailed(); return; } // Check airmap reponse status QJsonObject rootObject = responseJson.object(); QString status = rootObject["status"].toString(); if (status != "success") { qCDebug(TerrainQueryLog) << "_requestFinished status != success:" << status; _requestFailed(); return; } // Send back data const QJsonValue& jsonData = rootObject["data"]; qCDebug(TerrainQueryLog) << "_requestFinished sucess"; switch (_queryMode) { case QueryModeCoordinates: emit _parseCoordinateData(jsonData); break; case QueryModePath: emit _parsePathData(jsonData); break; case QueryModeCarpet: emit _parseCarpetData(jsonData); break; } } void TerrainAirMapQuery::_requestFailed(void) { switch (_queryMode) { case QueryModeCoordinates: emit coordinateHeights(false /* success */, QList() /* heights */); break; case QueryModePath: emit pathHeights(false /* success */, qQNaN() /* latStep */, qQNaN() /* lonStep */, QList() /* heights */); break; case QueryModeCarpet: emit carpetHeights(false /* success */, qQNaN() /* minHeight */, qQNaN() /* maxHeight */, QList>() /* carpet */); break; } } void TerrainAirMapQuery::_parseCoordinateData(const QJsonValue& coordinateJson) { QList heights; const QJsonArray& dataArray = coordinateJson.toArray(); for (int i = 0; i < dataArray.count(); i++) { heights.append(dataArray[i].toDouble()); } emit coordinateHeights(true /* success */, heights); } void TerrainAirMapQuery::_parsePathData(const QJsonValue& pathJson) { QJsonObject jsonObject = pathJson.toArray()[0].toObject(); QJsonArray stepArray = jsonObject["step"].toArray(); QJsonArray profileArray = jsonObject["profile"].toArray(); double latStep = stepArray[0].toDouble(); double lonStep = stepArray[1].toDouble(); QList heights; foreach (const QJsonValue& profileValue, profileArray) { heights.append(profileValue.toDouble()); } emit pathHeights(true /* success */, latStep, lonStep, heights); } void TerrainAirMapQuery::_parseCarpetData(const QJsonValue& carpetJson) { QJsonObject jsonObject = carpetJson.toArray()[0].toObject(); QJsonObject statsObject = jsonObject["stats"].toObject(); double minHeight = statsObject["min"].toDouble(); double maxHeight = statsObject["min"].toDouble(); QList> carpet; if (!_carpetStatsOnly) { QJsonArray carpetArray = jsonObject["carpet"].toArray(); for (int i=0; i()); for (int j=0; j& coordinates) { if (coordinates.length() > 0) { connect(terrainAtCoordinateQuery, &TerrainAtCoordinateQuery::destroyed, this, &TerrainAtCoordinateBatchManager::_queryObjectDestroyed); QueuedRequestInfo_t queuedRequestInfo = { terrainAtCoordinateQuery, coordinates }; _requestQueue.append(queuedRequestInfo); if (!_batchTimer.isActive()) { _batchTimer.start(); } } } void TerrainAtCoordinateBatchManager::_sendNextBatch(void) { qCDebug(TerrainQueryLog) << "_sendNextBatch _state:_requestQueue.count:_sentRequests.count" << _stateToString(_state) << _requestQueue.count() << _sentRequests.count(); if (_state != State::Idle) { // Waiting for last download the complete, wait some more _batchTimer.start(); return; } if (_requestQueue.count() == 0) { return; } _sentRequests.clear(); // Convert coordinates to point strings for json query QList coords; int requestQueueAdded = 0; foreach (const QueuedRequestInfo_t& requestInfo, _requestQueue) { SentRequestInfo_t sentRequestInfo = { requestInfo.terrainAtCoordinateQuery, false, requestInfo.coordinates.count() }; _sentRequests.append(sentRequestInfo); coords += requestInfo.coordinates; requestQueueAdded++; if (coords.count() > 50) { break; } } qCDebug(TerrainQueryLog) << "Built request: coordinate count" << coords.count(); _requestQueue = _requestQueue.mid(requestQueueAdded); _terrainQuery.requestCoordinateHeights(coords); _state = State::Downloading; } void TerrainAtCoordinateBatchManager::_batchFailed(void) { QList noHeights; foreach (const SentRequestInfo_t& sentRequestInfo, _sentRequests) { if (!sentRequestInfo.queryObjectDestroyed) { disconnect(sentRequestInfo.terrainAtCoordinateQuery, &TerrainAtCoordinateQuery::destroyed, this, &TerrainAtCoordinateBatchManager::_queryObjectDestroyed); sentRequestInfo.terrainAtCoordinateQuery->_signalTerrainData(false, noHeights); } } _sentRequests.clear(); } void TerrainAtCoordinateBatchManager::_queryObjectDestroyed(QObject* terrainAtCoordinateQuery) { // Remove/Mark deleted objects queries from queues qCDebug(TerrainQueryLog) << "_TerrainAtCoordinateQueryDestroyed TerrainAtCoordinateQuery" << terrainAtCoordinateQuery; int i = 0; while (i < _requestQueue.count()) { const QueuedRequestInfo_t& requestInfo = _requestQueue[i]; if (requestInfo.terrainAtCoordinateQuery == terrainAtCoordinateQuery) { qCDebug(TerrainQueryLog) << "Removing deleted provider from _requestQueue index:terrainAtCoordinateQuery" << i << requestInfo.terrainAtCoordinateQuery; _requestQueue.removeAt(i); } else { i++; } } for (int i=0; i<_sentRequests.count(); i++) { SentRequestInfo_t& sentRequestInfo = _sentRequests[i]; if (sentRequestInfo.terrainAtCoordinateQuery == terrainAtCoordinateQuery) { qCDebug(TerrainQueryLog) << "Zombieing deleted provider from _sentRequests index:terrainAtCoordinateQuery" << sentRequestInfo.terrainAtCoordinateQuery; sentRequestInfo.queryObjectDestroyed = true; } } } QString TerrainAtCoordinateBatchManager::_stateToString(State state) { switch (state) { case State::Idle: return QStringLiteral("Idle"); case State::Downloading: return QStringLiteral("Downloading"); } return QStringLiteral("State unknown"); } void TerrainAtCoordinateBatchManager::_coordinateHeights(bool success, QList heights) { _state = State::Idle; if (!success) { _batchFailed(); return; } int currentIndex = 0; foreach (const SentRequestInfo_t& sentRequestInfo, _sentRequests) { if (!sentRequestInfo.queryObjectDestroyed) { disconnect(sentRequestInfo.terrainAtCoordinateQuery, &TerrainAtCoordinateQuery::destroyed, this, &TerrainAtCoordinateBatchManager::_queryObjectDestroyed); QList requestAltitudes = heights.mid(currentIndex, sentRequestInfo.cCoord); sentRequestInfo.terrainAtCoordinateQuery->_signalTerrainData(true, requestAltitudes); currentIndex += sentRequestInfo.cCoord; } } _sentRequests.clear(); } TerrainAtCoordinateQuery::TerrainAtCoordinateQuery(QObject* parent) : QObject(parent) { } void TerrainAtCoordinateQuery::requestData(const QList& coordinates) { if (coordinates.length() == 0) { return; } _TerrainAtCoordinateBatchManager->addQuery(this, coordinates); } void TerrainAtCoordinateQuery::_signalTerrainData(bool success, QList& heights) { emit terrainData(success, heights); } TerrainPathQuery::TerrainPathQuery(QObject* parent) : QObject(parent) { qRegisterMetaType(); connect(&_terrainQuery, &TerrainQueryInterface::pathHeights, this, &TerrainPathQuery::_pathHeights); } void TerrainPathQuery::requestData(const QGeoCoordinate& fromCoord, const QGeoCoordinate& toCoord) { _terrainQuery.requestPathHeights(fromCoord, toCoord); } void TerrainPathQuery::_pathHeights(bool success, double latStep, double lonStep, const QList& heights) { PathHeightInfo_t pathHeightInfo; pathHeightInfo.latStep = latStep; pathHeightInfo.lonStep = lonStep; pathHeightInfo.heights = heights; emit terrainData(success, pathHeightInfo); } TerrainPolyPathQuery::TerrainPolyPathQuery(QObject* parent) : QObject (parent) , _curIndex (0) { connect(&_pathQuery, &TerrainPathQuery::terrainData, this, &TerrainPolyPathQuery::_terrainDataReceived); } void TerrainPolyPathQuery::requestData(const QVariantList& polyPath) { QList path; foreach (const QVariant& geoVar, polyPath) { path.append(geoVar.value()); } requestData(path); } void TerrainPolyPathQuery::requestData(const QList& polyPath) { // Kick off first request _rgCoords = polyPath; _curIndex = 0; _pathQuery.requestData(_rgCoords[0], _rgCoords[1]); } void TerrainPolyPathQuery::_terrainDataReceived(bool success, const TerrainPathQuery::PathHeightInfo_t& pathHeightInfo) { if (!success) { _rgPathHeightInfo.clear(); emit terrainData(false /* success */, _rgPathHeightInfo); return; } _rgPathHeightInfo.append(pathHeightInfo); if (++_curIndex >= _rgCoords.count() - 1) { // We've finished all requests emit terrainData(true /* success */, _rgPathHeightInfo); } else { _pathQuery.requestData(_rgCoords[_curIndex], _rgCoords[_curIndex+1]); } } TerrainCarpetQuery::TerrainCarpetQuery(QObject* parent) : QObject(parent) { connect(&_terrainQuery, &TerrainQueryInterface::carpetHeights, this, &TerrainCarpetQuery::terrainData); } void TerrainCarpetQuery::requestData(const QGeoCoordinate& swCoord, const QGeoCoordinate& neCoord, bool statsOnly) { _terrainQuery.requestCarpetHeights(swCoord, neCoord, statsOnly); }