Mercurial > dive4elements > river
view artifacts/src/main/java/org/dive4elements/river/artifacts/model/minfo/SedimentDensity.java @ 6152:0587819960c3
Waterlevel differences & bed height differences: Add new model LinearInterpolated intented to unify the two very similiar calculations. The focus of the current implementation is correctness and not speed! The fact that the data sets more mostly sorted by station is not exploited. Doing so would improve performance significantly.
| author | Sascha L. Teichmann <teichmann@intevation.de> |
|---|---|
| date | Sun, 02 Jun 2013 17:52:53 +0200 |
| parents | af13ceeba52a |
| children | 67182bde34cd |
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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.artifacts.model.minfo; import java.util.ArrayList; import java.util.Collections; import java.util.HashMap; import java.util.List; import java.util.Map; import java.util.Set; import org.apache.log4j.Logger; public class SedimentDensity { private static final Logger logger = Logger .getLogger(SedimentDensity.class); private Map<Integer, List<SedimentDensityValue>> densities; private List<Integer> years; public SedimentDensity() { this.densities = new HashMap<Integer, List<SedimentDensityValue>>(); this.years = new ArrayList<Integer>(); } public Map<Integer, List<SedimentDensityValue>> getDensities() { return densities; } public void setDensities(Map<Integer, List<SedimentDensityValue>> densities) { this.densities = densities; } public void addDensity(double km, double density, int year) { logger.debug("adding " + year); if (this.densities.containsKey(year)) { List<SedimentDensityValue> list = this.densities.get(year); list.add(new SedimentDensityValue(km, density, year)); } else { List<SedimentDensityValue> list = new ArrayList<SedimentDensityValue>(); list.add(new SedimentDensityValue(km, density, year)); densities.put(year, list); } if (!this.years.contains(new Integer(year))) { logger.debug("new year"); years.add(new Integer(year)); } } public List<Integer> getYears() { return years; } public void setYears(List<Integer> years) { this.years = years; } public double getDensity(double km, int year) { Collections.sort(this.years); if (this.years.size() == 1) { return getDensityAtKm(densities.get(year), km); } else { for (int i = 0; i < years.size() -1; i++) { int y1 = years.get(i); int y2 = years.get(i + 1); int mid = Math.round((y1 + y2) / 2); if (year < mid) { return getDensityAtKm(densities.get(y1), km); } else if (i == years.size() -1) { continue; } else { return getDensityAtKm(densities.get(y2), km); } } } return 1.8d; } private double getDensityAtKm( List<SedimentDensityValue> values, double km ) { boolean found = true; SedimentDensityValue prev = null; SedimentDensityValue next = null; for (SedimentDensityValue sdv: values) { logger.debug("year: " + sdv.getYear()); if (sdv.getKm() == km) { prev = sdv; found = true; break; } if (sdv.getKm() > km) { next = sdv; break; } prev = sdv; } if (found) { return prev.getDensity(); } else { return spline(prev, next, km); } } private double spline( SedimentDensityValue prev, SedimentDensityValue next, double km ) { double lower = prev.getKm(); double upper = next.getKm(); double upperDensity = next.getDensity(); double lowerDensity = prev.getDensity(); double m =(upperDensity - lowerDensity)/(upper - lower) * km; double b = lowerDensity - ((upperDensity - lowerDensity)/(upper - lower) * lower); return (m * km) + b; } public void cleanUp() { Set<Integer> keys = densities.keySet(); for (Integer key : keys) { List<SedimentDensityValue> list = densities.get(key); if (list.size() == 0) { return; } List<SedimentDensityValue> cleaned = new ArrayList<SedimentDensityValue>(); double prevkm = list.get(0).getKm(); int counter = 0; double sum = 0d; for (SedimentDensityValue value : list) { if (value.getKm() == prevkm) { sum += value.getDensity(); counter++; } else { cleaned.add(new SedimentDensityValue( prevkm, sum / counter, value.getYear())); sum = value.getDensity(); counter = 1; } prevkm = value.getKm(); } this.densities.put(key, cleaned); } } }