Mercurial > dive4elements > river
view artifacts/src/main/java/org/dive4elements/river/artifacts/sinfo/tkhcalculation/BedQualityD50KmValueFinder.java @ 8946:5d5d482da3e9
Implementing SINFO - FlowDepthMinMax calculation
| author | gernotbelger |
|---|---|
| date | Tue, 13 Mar 2018 18:49:33 +0100 |
| parents | 48d5812e8fd5 |
| children | 45f1ad66560e |
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/* Copyright (C) 2017 by Bundesanstalt für Gewässerkunde * Software engineering by * Björnsen Beratende Ingenieure GmbH * Dr. Schumacher Ingenieurbüro für Wasser und Umwelt * * 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.artifacts.sinfo.tkhcalculation; import java.util.Calendar; import java.util.Date; import java.util.List; import org.apache.commons.lang.math.DoubleRange; import org.apache.commons.math.ArgumentOutsideDomainException; import org.apache.commons.math.analysis.interpolation.LinearInterpolator; import org.apache.commons.math.analysis.polynomials.PolynomialSplineFunction; import org.apache.log4j.Logger; import org.dive4elements.river.artifacts.math.Utils; import org.dive4elements.river.backend.SedDBSessionHolder; import org.dive4elements.river.model.River; import org.hibernate.SQLQuery; import org.hibernate.Session; import org.hibernate.type.StandardBasicTypes; import gnu.trove.TDoubleArrayList; /** * Searchable sorted km array with parallel bed measurements value array and linear interpolation for km and d50 between * the array elements.<br /> * <br /> * See comment of SQL command on how the values are filtered and aggregated. * * @author Matthias Schäfer * */ public class BedQualityD50KmValueFinder { /***** FIELDS *****/ /** * Private log to use here. */ private static Logger log = Logger.getLogger(BedQualityD50KmValueFinder.class); /** * Query selecting all sub layer bed measurements with their d50 for a km range and a time period<br /> * <br /> * A km may have bed measurements for multiple dates, multiple distances from the river bank, and multiple depth layers. * The query filters by km range, time period and layer (sub layer: below bed to max. 50 cm depth).<br /> * * If PostgreSQL would support a median aggregate function like Oracle does, the aggregation could be placed into this query. */ private static final String SQL_BED_D50_SUBLAYER_MEASUREMENT = "SELECT t.km, t.datum, p.tiefevon, p.tiefebis, a.d50" + " FROM sohltest t INNER JOIN station s ON t.stationid = s.stationid" + " INNER JOIN gewaesser g ON s.gewaesserid = g.gewaesserid" + " INNER JOIN sohlprobe p ON t.sohltestid = p.sohltestid" + " INNER JOIN siebanalyse a ON p.sohlprobeid = a.sohlprobeid" + " WHERE (g.name = :name) AND (s.km BETWEEN :fromkm - 0.0001 AND :tokm + 0.0001)" + " AND (p.tiefevon > 0.0) AND (p.tiefebis <= 0.5)" + " AND (t.datum BETWEEN :fromdate AND :todate)" + " ORDER BY t.km ASC, a.d50 ASC"; /** * Real linear interpolator for kms and d50 values (m) */ private final PolynomialSplineFunction interpolator; /***** CONSTRUCTORS *****/ private BedQualityD50KmValueFinder(final double[] kms, final double[] values) { this.interpolator = new LinearInterpolator().interpolate(kms, values); } /***** METHODS *****/ /** * Sohlbeschaffenheit (D50 Korndurchmesser aus Seddb) * Abhängig von Peiljahr */ public static BedQualityD50KmValueFinder loadBedMeasurements(final River river, final DoubleRange kmRange, final int soundingYear, final int validYears) { /* construct valid measurement time range */ final Calendar cal = Calendar.getInstance(); cal.clear(); cal.set(soundingYear - validYears, 0, 1); final Date startTime = cal.getTime(); cal.set(soundingYear + validYears, 11, 31); final Date endTime = cal.getTime(); log.debug(String.format("loadValues km %.3f - %.3f %tF - %tF", kmRange.getMinimumDouble(), kmRange.getMaximumDouble(), startTime, endTime)); final Session session = SedDBSessionHolder.HOLDER.get(); final SQLQuery sqlQuery = session.createSQLQuery(SQL_BED_D50_SUBLAYER_MEASUREMENT).addScalar("km", StandardBasicTypes.DOUBLE) .addScalar("datum", StandardBasicTypes.DATE).addScalar("tiefevon", StandardBasicTypes.DOUBLE) .addScalar("tiefebis", StandardBasicTypes.DOUBLE).addScalar("d50", StandardBasicTypes.DOUBLE); final String seddbRiver = river.nameForSeddb(); sqlQuery.setString("name", seddbRiver); sqlQuery.setDouble("fromkm", kmRange.getMinimumDouble()); sqlQuery.setDouble("tokm", kmRange.getMaximumDouble()); sqlQuery.setDate("fromdate", startTime); sqlQuery.setDate("todate", endTime); final List<Object[]> rows = sqlQuery.list(); final TDoubleArrayList kms = new TDoubleArrayList(); final TDoubleArrayList values = new TDoubleArrayList(); final TDoubleArrayList kmd50s = new TDoubleArrayList(); for (int i = 0; i <= rows.size() - 1; i++) { kmd50s.add((double) rows.get(i)[4]); if (((i == rows.size() - 1) || !Utils.epsilonEquals((double) rows.get(i)[0], (double) rows.get(i+1)[0], 0.0001))) { int k = kmd50s.size() / 2; values.add(((k + k < kmd50s.size()) ? kmd50s.get(k) : (kmd50s.get(k-1) + kmd50s.get(k)) / 2) / 1000); kms.add((double) rows.get(i)[0]); log.debug(String.format("loadValues km %.3f d50(mm) %.1f count %d", kms.get(kms.size()-1), values.get(values.size()-1), kmd50s.size())); kmd50s.clear(); } } try { return new BedQualityD50KmValueFinder(kms.toNativeArray(), values.toNativeArray()); } catch (final Exception e) { e.printStackTrace(); return null; } } /** * Returns the d50 value interpolated according to a km * * @return d50 (m) of the km, or NaN */ public double findD50(final double km) throws ArgumentOutsideDomainException { return this.interpolator.value(km); /* * ohne interpolation: * if ((kms == null) || (kms.size() == 0)) * return Double.NaN; * int i = kms.binarySearch(km); * if (i >= 0) * return values.get(i); * i = -i - 1; * if ((i - 1 >= 0) && Utils.epsilonEquals(km, kms.get(i - 1), 0.0001)) * return values.get(i - 1); * else if ((i >= 0) && (i <= kms.size() - 1) && Utils.epsilonEquals(km, kms.get(i), 0.0001)) * return values.get(i); * else * return Double.NaN; */ } }