Mercurial > dive4elements > river
view artifacts/src/main/java/org/dive4elements/river/exports/ComputedDischargeCurveExporter.java @ 8722:a83d519155ab
(issue1754) Do not base smoothing radius on calculation range
Using the calculation parameters for startkm and endkm in the
case that the domain axis had the default extend caused weird
behavior when zooming and led to too large radius values for
most data that only had valid values on a subset of the caluclation
range.
| author | Andre Heinecke <andre.heinecke@intevation.de> |
|---|---|
| date | Tue, 28 Apr 2015 14:22:47 +0200 |
| parents | 4de385d58a3e |
| children | 47199406994a |
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/* Copyright (C) 2011, 2012, 2013 by Bundesanstalt für Gewässerkunde * Software engineering by Intevation GmbH * * This file is Free Software under the GNU AGPL (>=v3) * and comes with ABSOLUTELY NO WARRANTY! Check out the * documentation coming with Dive4Elements River for details. */ package org.dive4elements.river.exports; import java.io.OutputStream; import java.text.NumberFormat; import java.util.ArrayList; import java.util.Arrays; import java.util.List; import java.util.Map; import java.util.HashMap; import java.util.Date; import java.text.DateFormat; import java.util.Locale; import org.apache.log4j.Logger; import au.com.bytecode.opencsv.CSVWriter; import net.sf.jasperreports.engine.JasperExportManager; import net.sf.jasperreports.engine.JasperFillManager; import net.sf.jasperreports.engine.JasperPrint; import net.sf.jasperreports.engine.JRException; import org.dive4elements.artifacts.common.utils.Config; import org.dive4elements.artifacts.CallMeta; import org.dive4elements.river.artifacts.D4EArtifact; import org.dive4elements.river.artifacts.access.RangeAccess; import org.dive4elements.river.artifacts.model.CalculationResult; import org.dive4elements.river.artifacts.model.WQ; import org.dive4elements.river.artifacts.model.WQKms; import org.dive4elements.river.artifacts.model.WKmsJRDataSource; import org.dive4elements.river.artifacts.resources.Resources; import org.dive4elements.river.model.Gauge; import org.dive4elements.river.model.River; import org.dive4elements.river.utils.RiverUtils; import org.dive4elements.river.utils.Formatter; import static org.dive4elements.river.exports.injector.InjectorConstants.GAUGE_EPSILON; /** * @author <a href="mailto:ingo.weinzierl@intevation.de">Ingo Weinzierl</a> */ public class ComputedDischargeCurveExporter extends AbstractExporter { /** The log used in this exporter.*/ private static Logger log = Logger.getLogger(ComputedDischargeCurveExporter.class); public static final String CSV_W_HEADER = "export.computed.discharge.curve.csv.header.w"; public static final String CSV_Q_HEADER = "export.computed.discharge.curve.csv.header.q"; public static final String DEFAULT_CSV_W_HEADER = "W [NN + m]"; public static final String DEFAULT_CSV_Q_HEADER = "Q [m\u00b3/s]"; public static final String PDF_HEADER_MODE = "export.computed.discharge.pdf.mode"; public static final String PDF_HEADER_CALC_MODE = "export.computed.discharge.pdf.calc.mode"; public static final String JASPER_FILE = "export.computed.discharge.pdf.file"; protected List<WQKms> data; protected String wUnit; protected String riverUnit; protected String gaugeName; protected double gaugeDatum; protected Date validSince; public ComputedDischargeCurveExporter() { data = new ArrayList<WQKms>(); } @Override protected void addData(Object d) { if (d instanceof CalculationResult) { d = ((CalculationResult)d).getData(); } WQKms referenceWQ = null; // used for gauge / unit observations if (d instanceof WQKms[]){ data.addAll(Arrays.asList((WQKms [])d)); // If there is a unit mix in this list // we are screwed anyway. referenceWQ = ((WQKms[])d)[0]; } else if (d instanceof WQKms) { data.add((WQKms)d); referenceWQ = (WQKms)d; } else { log.warn("Can't add data for export. Unkown data type " + d.getClass().getName()); return; } if (referenceWQ != null) { D4EArtifact arti = (D4EArtifact)master; River river = RiverUtils.getRiver(arti); riverUnit = river.getWstUnit().getName(); RangeAccess rangeAccess = new RangeAccess(arti); double[] kms = rangeAccess.getKmRange(); Gauge gauge = river.determineGaugeByPosition(kms[0]); if (Math.abs(kms[0] - gauge.getStation().doubleValue()) < GAUGE_EPSILON) { wUnit = "cm"; gaugeName = gauge.getName(); gaugeDatum = gauge.getDatum().doubleValue(); // Now convert the data to cm because we are at gauge List<WQKms> newData = new ArrayList<WQKms>(); for (WQKms d2: data) { newData.add(new WQKms(d2.getKms(), WQ.getFixedWQforExportAtGauge( (WQ)d2, gauge.getDatum() ))); } data = newData; // All hail the garbage collector validSince = gauge.fetchMasterDischargeTable() .getTimeInterval().getStartTime(); } else { gaugeName = ""; validSince = null; gaugeDatum = Double.NaN; } } } protected void writeCSVData(CSVWriter writer) { log.info("ComputedDischargeCurveExporter.writeData"); writeCSVHeader(writer); NumberFormat wf = getWFormatter(); NumberFormat qf = getQFormatter(); double[] res = new double[3]; for (WQKms wqkms: data) { int size = wqkms.size(); for (int i = 0; i < size; i++) { res = wqkms.get(i, res); writer.writeNext(new String[] { wf.format(res[0]), qf.format(res[1]) }); } } } protected void writeCSVHeader(CSVWriter writer) { log.debug("ComputedDischargeCurveExporter.writeCSVHeader"); RangeAccess access = new RangeAccess((D4EArtifact)master); double[] km = access.getLocations(); // If we are not at gauge (cm) use the river unit String realUnit = "cm".equals(wUnit) ? "cm" : riverUnit; String header = msg(CSV_W_HEADER, DEFAULT_CSV_W_HEADER, new Object[] {realUnit}); writer.writeNext(new String[] { header, msg(CSV_Q_HEADER, DEFAULT_CSV_Q_HEADER) }); } /** * Returns the number formatter for W values. * * @return the number formatter for W values. */ protected NumberFormat getWFormatter() { if ("cm".equals(wUnit)) { return Formatter.getFormatter(context, 0, 0); } return Formatter.getComputedDischargeW(context); } /** * Returns the number formatter for Q values. * * @return the number formatter for Q values. */ protected NumberFormat getQFormatter() { return Formatter.getComputedDischargeQ(context); } @Override protected void writePDF(OutputStream out) { WKmsJRDataSource source = createJRData(); String jasperFile = Resources.getMsg( context.getMeta(), JASPER_FILE, "/jasper/computed-discharge_en.jasper"); String confPath = Config.getConfigDirectory().toString(); Map parameters = new HashMap(); parameters.put("ReportTitle", "Exported Data"); try { JasperPrint print = JasperFillManager.fillReport( confPath + jasperFile, parameters, source); JasperExportManager.exportReportToPdfStream(print, out); } catch(JRException je) { log.warn("Error generating PDF Report!"); je.printStackTrace(); } } protected WKmsJRDataSource createJRData() { WKmsJRDataSource source = new WKmsJRDataSource(); addMetaData(source); addWQData(source); return source; } protected void addMetaData(WKmsJRDataSource source) { CallMeta meta = context.getMeta(); D4EArtifact flys = (D4EArtifact) master; source.addMetaData("gauge", gaugeName); if (!Double.isNaN(gaugeDatum)) { NumberFormat mf = Formatter.getMeterFormat(context); source.addMetaData("datum", mf.format(gaugeDatum) + " " + riverUnit); } else { source.addMetaData("datum", ""); } source.addMetaData ("river", RiverUtils.getRivername(flys)); Locale locale = Resources.getLocale(meta); DateFormat df = DateFormat.getDateInstance(DateFormat.SHORT, locale); source.addMetaData("date", df.format(new Date())); source.addMetaData("wUnit", "cm".equals(wUnit) ? "cm" : riverUnit); RangeAccess rangeAccess = new RangeAccess(flys); double[] kms = rangeAccess.getKmRange(); source.addMetaData("range", Formatter.getCalculationKm(context.getMeta()).format(kms[0])); if (!"cm".equals(wUnit)) { source.addMetaData("valid_since", ""); source.addMetaData("calculation", Resources.getMsg( locale, PDF_HEADER_CALC_MODE, "Computed Discharge")); } else { source.addMetaData("valid_since", validSince == null ? "" : df.format(validSince)); source.addMetaData("calculation", Resources.getMsg( locale, PDF_HEADER_MODE, "Discharge")); } } protected void addWQData(WKmsJRDataSource source) { NumberFormat wf = getWFormatter(); NumberFormat qf = getQFormatter(); double[] res = new double[3]; for (WQKms wqkms: data) { int size = wqkms.size(); for (int i = 0; i < size; i++) { res = wqkms.get(i, res); source.addData(new String[] { "", // Empty, the WKmsJRDtasource stores km here. wf.format(res[0]), qf.format(res[1]) }); } } } } // vim:set ts=4 sw=4 si et sta sts=4 fenc=utf8 :