Example #1
0
/*
int RapidXMLInterface::rapidReadFile(const std::string &fileName)
{
	GEOLIB::GEOObjects* geoObjects = _project->getGEOObjects();

	std::ifstream in(fileName.c_str());
	if (in.fail())
	{
		std::cout << "XmlStnInterface::rapidReadFile() - Can't open xml-file." << std::endl;
		return 0;
	}

	// buffer file
	in.seekg(0, std::ios::end);
	size_t length = in.tellg();
	in.seekg(0, std::ios::beg);
	char* buffer = new char[length+1];
	in.read(buffer, length);
	buffer[in.gcount()] = '\0';
	in.close();

	// build DOM tree
	rapidxml::xml_document<> doc;
	doc.parse<0>(buffer);

	// parse content
	if (std::string(doc.first_node()->name()).compare("OpenGeoSysSTN"))
	{
		std::cout << "XmlStnInterface::readFile() - Unexpected XML root." << std::endl;
		return 0;
	}

	// iterate over all station lists
	for (rapidxml::xml_node<>* station_list = doc.first_node()->first_node(); station_list; station_list = station_list->next_sibling())
	{
		std::vector<GEOLIB::Point*>* stations = new std::vector<GEOLIB::Point*>;
		std::string stnName("[NN]");

		stnName = station_list->first_node("name")->value();
		for (rapidxml::xml_node<>* list_item = station_list->first_node(); list_item; list_item = list_item->next_sibling())
		{
			std::string b(list_item->name());
			if (std::string(list_item->name()).compare("stations") == 0)
				XmlStnInterface::rapidReadStations(list_item, stations, fileName);
			if (std::string(list_item->name()).compare("boreholes") == 0)
				XmlStnInterface::rapidReadStations(list_item, stations, fileName);
		}

		if (!stations->empty())
			geoObjects->addStationVec(stations, stnName);
		else
			delete stations;
	}

	doc.clear();
	delete [] buffer;

	return 1;
}
*/
void RapidXMLInterface::readStations(const rapidxml::xml_node<>* station_root, std::vector<GeoLib::Point*> *stations, const std::string &file_name)
{
    for (rapidxml::xml_node<>* station_node = station_root->first_node(); station_node; station_node = station_node->next_sibling())
    {
        if (station_node->first_attribute("id") && station_node->first_attribute("x") && station_node->first_attribute("y"))
        {
            double zVal(0.0);
            if (station_node->first_attribute("z"))
                zVal = strtod(station_node->first_attribute("z")->value(), 0);

            std::string station_name(""), sensor_data_file_name(""), bdate_str("0000-00-00");
            double station_value(0.0), borehole_depth(0.0);
            if (station_node->first_node("name"))
                station_name = station_node->first_node("name")->value();
            if (station_node->first_node("sensordata"))
                sensor_data_file_name = station_node->first_node("sensordata")->value();
            if (station_node->first_node("value"))
                station_value = strtod(station_node->first_node("value")->value(), 0);
            /* add other station features here */

            if (std::string(station_node->name()).compare("station") == 0)
            {
                GeoLib::Station* s = new GeoLib::Station(
                    strtod(station_node->first_attribute("x")->value(), 0),
                    strtod(station_node->first_attribute("y")->value(), 0),
                    zVal,
                    station_name);
                s->setStationValue(station_value);
                if (!sensor_data_file_name.empty())
                    s->addSensorDataFromCSV(BaseLib::copyPathToFileName(sensor_data_file_name, file_name));
                stations->push_back(s);
            }
            else if (std::string(station_node->name()).compare("borehole") == 0)
            {
                if (station_node->first_node("bdepth"))
                    borehole_depth = strtod(station_node->first_node("bdepth")->value(), 0);
                if (station_node->first_node("bdate"))
                    bdate_str = station_node->first_node("bdate")->value();
                /* add other borehole features here */

                GeoLib::StationBorehole* s = GeoLib::StationBorehole::createStation(
                                                 station_name,
                                                 strtod(station_node->first_attribute("x")->value(), 0),
                                                 strtod(station_node->first_attribute("y")->value(), 0),
                                                 zVal,
                                                 borehole_depth,
                                                 bdate_str);
                s->setStationValue(station_value);

                if (station_node->first_node("strat"))
                    RapidXMLInterface::readStratigraphy(station_node->first_node("strat"), s);

                stations->push_back(s);

            }
        }
        else
            std::cout << "XmlStnInterface::rapidReadStations() - Attribute missing in <station> tag ..." << std::endl;
    }
}
Example #2
0
void XmlStnInterface::readStations( const QDomNode &stationsRoot,
                                    std::vector<GEOLIB::Point*>* stations,
								    const std::string &file_name )
{
	QDomElement station = stationsRoot.firstChildElement();
	while (!station.isNull())
	{
		if (station.hasAttribute("id") && station.hasAttribute("x") &&
		    station.hasAttribute("y"))
		{
			std::string stationName("[NN]");
			std::string sensor_data_file_name("");
			std::string boreholeDate("0000-00-00");
			double boreholeDepth(0.0), stationValue(0.0);

			QDomNodeList stationFeatures = station.childNodes();
			for(int i = 0; i < stationFeatures.count(); i++)
			{
				// check for general station features
				const QDomNode feature_node (stationFeatures.at(i));
				const QString feature_name (feature_node.nodeName());
				const std::string element_text (feature_node.toElement().text().toStdString());
				if (feature_name.compare("name") == 0)
					stationName = feature_node.toElement().text().toStdString();
				if (feature_name.compare("sensordata") == 0)
					sensor_data_file_name = feature_node.toElement().text().toStdString();
				/* add other station features here */

				// check for general borehole features
				else if (feature_name.compare("value") == 0)
					stationValue = strtod(element_text.c_str(), 0);
				else if (feature_name.compare("bdepth") == 0)
					boreholeDepth = strtod(element_text.c_str(), 0);
				else if (feature_name.compare("bdate") == 0)
					boreholeDate  = element_text;
				/* add other borehole features here */
			}

			double zVal = (station.hasAttribute("z")) ? strtod((station.attribute("z")).toStdString().c_str(), 0) : 0.0;

			if (station.nodeName().compare("station") == 0)
			{
				GEOLIB::Station* s =
				        new GEOLIB::Station(
							strtod((station.attribute("x")).toStdString().c_str(), 0),
				            strtod((station.attribute("y")).toStdString().c_str(), 0),
				            zVal, 
							stationName);
				s->setStationValue(stationValue);
				if (!sensor_data_file_name.empty())
						s->addSensorDataFromCSV(BaseLib::copyPathToFileName(sensor_data_file_name, file_name));
				stations->push_back(s);
			}
			else if (station.nodeName().compare("borehole") == 0)
			{
				GEOLIB::StationBorehole* s = GEOLIB::StationBorehole::createStation(
				        stationName,
				        strtod((station.attribute("x")).toStdString().c_str(), 0),
				        strtod((station.attribute("y")).toStdString().c_str(), 0),
				        zVal,
				        boreholeDepth,
				        boreholeDate);
				s->setStationValue(stationValue);
				/* add stratigraphy to the borehole */
				for(int j = 0; j < stationFeatures.count(); j++)
					if (stationFeatures.at(j).nodeName().compare("strat") == 0)
						this->readStratigraphy(stationFeatures.at(j), s);

				stations->push_back(s);
			}
		}
		else
			std::cout <<
			"XmlStnInterface::readStations() - Attribute missing in <station> tag ..." <<
			"\n";
		station = station.nextSiblingElement();
	}
}