std::map<quint32, std::vector<quint32> > Grid::calcBlockLimits(const IOOptions& options ){ std::map<quint32, std::vector<quint32> > result; int blockplayer = blocksPerBand(); if ( options.size() == 0){ quint32 lastblock = 0; for(int layer = 0; layer < size().zsize(); ++layer){ for(int block = 0; block < blockplayer; ++block){ result[layer].push_back(lastblock + block); } lastblock += blockplayer; } }else { auto bindex = options["blockindex"]; if ( bindex.isValid()){ quint32 index = bindex.toUInt(); int layer = index / blockplayer; result[layer].push_back(index); } } return result; }
bool WfsFeatureConnector::loadMetaData(Ilwis::IlwisObject *data, const IOOptions& options) { qDebug() << "WfsFeatureConnector::loadMetaData()"; if (options.size() > 0) { qWarning() << "IOOptions not empty .. not handled for now."; } QUrl featureUrl = sourceRef().url(true); WebFeatureService wfs(featureUrl); QUrlQuery queryFeatureType(featureUrl); SPWfsResponse featureDescriptionResponse = wfs.describeFeatureType(queryFeatureType); WfsFeatureDescriptionParser schemaParser(featureDescriptionResponse); FeatureCoverage *fcoverage = static_cast<FeatureCoverage *>(data); _context.setResource(_resource); return schemaParser.parseMetadata(fcoverage, _context); }