Mercurial > dive4elements > river
view flys-artifacts/src/main/java/de/intevation/flys/artifacts/model/DischargeTables.java @ 4856:d9ef525bff08
ChartGenerator, ComputedDischargeCurveExporter: Updated to use RangeAccess instead of FLYSUtils.
author | Felix Wolfsteller <felix.wolfsteller@intevation.de> |
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date | Wed, 23 Jan 2013 13:01:21 +0100 |
parents | cb9f22c3553f |
children | dbe9b7d6b80b |
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package de.intevation.flys.artifacts.model; import java.util.List; import java.util.Map; import java.util.HashMap; import java.util.Arrays; import java.io.Serializable; import org.hibernate.Session; import org.hibernate.Query; import org.apache.log4j.Logger; import de.intevation.flys.backend.SessionHolder; import de.intevation.flys.model.Gauge; import de.intevation.flys.model.DischargeTable; import de.intevation.flys.model.DischargeTableValue; import gnu.trove.TDoubleArrayList; /** Documentation goes here. */ public class DischargeTables implements Serializable { /** Private logger. */ private static Logger log = Logger.getLogger(DischargeTables.class); /** Scale to convert discharge table values of master table into [cm] */ public static final double MASTER_SCALE = 100d; /** Scale to convert discharge table values of historical tables into [cm] */ public static final double HISTORICAL_SCALE = 1d; public static final int MASTER = 0; protected List<String> gaugeNames; protected String riverName; protected double scale; protected int kind; protected Map<String, double [][]> values; public DischargeTables() { } public DischargeTables(String riverName, String gaugeName) { this(riverName, gaugeName, MASTER); } public DischargeTables(String riverName, String gaugeName, int kind) { this(riverName, new String [] { gaugeName }, kind); } public DischargeTables(String riverName, String [] gaugeNames) { this(riverName, gaugeNames, MASTER); } public DischargeTables(String riverName, String [] gaugeNames, int kind) { this(riverName, Arrays.asList(gaugeNames), kind); } public DischargeTables( String riverName, List<String> gaugeNames, int kind ) { scale = Double.NaN; this.kind = kind; this.riverName = riverName; this.gaugeNames = gaugeNames; } public double [][] getFirstTable() { return getFirstTable(MASTER_SCALE); } public double [][] getFirstTable(double scale) { Map<String, double [][]> values = getValues(scale); for (double [][] table: values.values()) { return table; } return null; } public Map<String, double [][]> getValues() { return getValues(MASTER_SCALE); } public Map<String, double [][]> getValues(double scale) { if (values == null || scale != this.scale) { values = loadValues(scale); this.scale = scale; } return values; } /** * Returns mapping of gauge name to values. */ protected Map<String, double [][]> loadValues(double scale) { Map<String, double [][]> values = new HashMap<String, double [][]>(); Session session = SessionHolder.HOLDER.get(); Query gaugeQuery = session.createQuery( "from Gauge where name=:gauge and river.name=:river"); gaugeQuery.setParameter("river", riverName); for (String gaugeName: gaugeNames) { gaugeQuery.setParameter("gauge", gaugeName); List<Gauge> gauges = gaugeQuery.list(); if (gauges.isEmpty()) { log.warn( "no gauge '"+gaugeName+"' at river '"+riverName+"'"); continue; } Gauge gauge = gauges.get(0); List<DischargeTable> tables = gauge.getDischargeTables(); if (tables.isEmpty()) { log.warn( "no discharge table for gauge '" + gaugeName + "'"); continue; } // TODO: Filter by time interval DischargeTable table = tables.get(0); double [][] vs = loadDischargeTableValues(table, scale); values.put(gaugeName, vs); } return values; } /** * @param table The discharge table * @param scale The scale factor to adjust W and Q values. * * @return the values of a discharge table. */ public static double[][] loadDischargeTableValues( DischargeTable table, double scale ) { List<DischargeTableValue> dtvs = table.getDischargeTableValues(); final double [][] vs = new double[2][dtvs.size()]; int idx = 0; for (DischargeTableValue dtv: dtvs) { double q = dtv.getQ().doubleValue(); vs[0][idx] = q * scale; vs[1][idx] = dtv.getW().doubleValue() * scale; ++idx; } return vs; } private static final double EPSILON = 1e-5; private static final boolean epsEquals(double a, double b) { return Math.abs(a - b) < EPSILON; } private static final boolean between(double a, double b, double x) { if (a > b) { double t = a; a = b; b = t; } return x > a && x < b; } public static double [] getQsForW(double [][] values, double w) { boolean debug = log.isDebugEnabled(); if (debug) { log.debug("getQsForW: W = " + w); } double [] qs = values[0]; double [] ws = values[1]; int N = Math.min(qs.length, ws.length); if (N == 0) { if (debug) { log.debug("Q(" + w + ") = []"); } return new double [0]; } TDoubleArrayList outQs = new TDoubleArrayList(); if (epsEquals(ws[0], w)) { outQs.add(qs[0]); } for (int i = 1; i < N; ++i) { if (epsEquals(ws[i], w)) { outQs.add(qs[i]); } else if (between(ws[i-1], ws[i], w)) { double w1 = ws[i-1]; double w2 = ws[i]; double q1 = qs[i-1]; double q2 = qs[i]; // q1 = m*w1 + b // q2 = m*w2 + b // q2 - q1 = m*(w2 - w1) // m = (q2 - q1)/(w2 - w1) # w2 != w1 // b = q1 - m*w1 // w1 != w2 double m = (q2 - q1)/(w2 - w1); double b = q1 - m*w1; double q = w*m + b; outQs.add(q); } } double [] result = outQs.toNativeArray(); if (debug) { log.debug("Q(" + w + ") = " + Arrays.toString(result)); } return result; } public static double [] getWsForQ(double [][] values, double q) { boolean debug = log.isDebugEnabled(); if (debug) { log.debug("getWsForQ: W = " + q); } double [] qs = values[0]; double [] ws = values[1]; int N = Math.min(qs.length, ws.length); if (N == 0) { if (debug) { log.debug("W(" + q + ") = []"); } return new double [0]; } TDoubleArrayList outWs = new TDoubleArrayList(); if (epsEquals(qs[0], q)) { outWs.add(ws[0]); } for (int i = 1; i < N; ++i) { if (epsEquals(qs[i], q)) { outWs.add(ws[i]); } else if (between(qs[i-1], qs[i], q)) { double w1 = ws[i-1]; double w2 = ws[i]; double q1 = qs[i-1]; double q2 = qs[i]; // w1 = m*q1 + b // w2 = m*q2 + b // w2 - w1 = m*(q2 - q1) // m = (w2 - w1)/(q2 - q1) # q2 != q1 // b = w1 - m*q1 // q1 != q2 double m = (w2 - w1)/(q2 - q1); double b = w1 - m*q1; double w = q*m + b; outWs.add(w); } } double [] result = outWs.toNativeArray(); if (debug) { log.debug("W(" + q + ") = " + Arrays.toString(result)); } return result; } } // vim:set ts=4 sw=4 si et sta sts=4 fenc=utf8 :