Mercurial > dive4elements > river
view artifacts/src/main/java/org/dive4elements/river/artifacts/model/minfo/SedimentLoadResult.java @ 8587:07c9ac22f611
(issue1755) Generalise BedQuality result handling
The bedquality calculation now produces a result for each time period
which has BedQualityResultValues for each specific result type.
Formally this was split up in density, porosity and diameter classes
with some bedload diameter classes mixed in for extra fun.
The intent of this commit is to allow more shared code and generic
access patterns to the BedQuality results.
| author | Andre Heinecke <andre.heinecke@intevation.de> |
|---|---|
| date | Wed, 18 Mar 2015 18:42:08 +0100 |
| parents | e4606eae8ea5 |
| children | 0a5239a1e46e |
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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 gnu.trove.TDoubleArrayList; import java.io.Serializable; import java.util.Set; import org.apache.log4j.Logger; /** Result from a SedimentLoadCalculation. */ public class SedimentLoadResult implements Serializable { private static final Logger log = Logger .getLogger(SedimentLoadResult.class); protected int startYear; protected int endYear; protected SedimentLoadLSData load; public SedimentLoadResult() { } public SedimentLoadResult( int startYear, int endYear, SedimentLoadLSData load ) { this.startYear = startYear; this.endYear = endYear; this.load = load; } public SedimentLoadLSData getLoad() { return this.load; } public int getStartYear() { return this.startYear; } public void setStartYear(int year) { this.startYear = year; } public int getEndYear() { return this.endYear; } public void setEndYear(int year) { this.endYear = year; } public double[][] getTotalData () { Set<Double> kms = this.load.getKms(); TDoubleArrayList k = new TDoubleArrayList(); TDoubleArrayList total = new TDoubleArrayList(); for (double km : kms) { if (load.getFraction(km).getTotal() > 0d) { k.add(km); total.add(load.getFraction(km).getTotal()); } } return new double [][] { k.toNativeArray(), total.toNativeArray() }; } /** Search all SedimenLoads fractions for sand and returns * an array [[km1, km2][sand1, sand2]]. */ public double[][] getSandData() { Set<Double> kms = this.load.getKms(); TDoubleArrayList k = new TDoubleArrayList(); TDoubleArrayList sand = new TDoubleArrayList(); for(double km : kms) { if (load.getFraction(km).getSand() > 0d) { k.add(km); sand.add(load.getFraction(km).getSand()); } } return new double [][] { k.toNativeArray(), sand.toNativeArray() }; } public double[][] getFineMiddleData() { Set<Double> kms = this.load.getKms(); TDoubleArrayList k = new TDoubleArrayList(); TDoubleArrayList fm = new TDoubleArrayList(); for (double km : kms) { if (load.getFraction(km).getFineMiddle() > 0d) { k.add(km); fm.add(load.getFraction(km).getFineMiddle()); } } return new double [][] { k.toNativeArray(), fm.toNativeArray() }; } public double[][] getCoarseData() { Set<Double> kms = this.load.getKms(); TDoubleArrayList k = new TDoubleArrayList(); TDoubleArrayList coarse = new TDoubleArrayList(); for (double km : kms) { if (load.getFraction(km).getCoarse() > 0d) { k.add(km); coarse.add(load.getFraction(km).getCoarse()); } } return new double [][] { k.toNativeArray(), coarse.toNativeArray() }; } public double[][] getSuspSandData() { Set<Double> kms = this.load.getKms(); TDoubleArrayList k = new TDoubleArrayList(); TDoubleArrayList ss = new TDoubleArrayList(); for (double km : kms) { if (load.getFraction(km).getSuspSand() > 0d) { k.add(km); ss.add(load.getFraction(km).getSuspSand()); } } return new double [][] { k.toNativeArray(), ss.toNativeArray() }; } public double[][] getSuspSandBedData() { Set<Double> kms = this.load.getKms(); TDoubleArrayList k = new TDoubleArrayList(); TDoubleArrayList ss = new TDoubleArrayList(); for (double km : kms) { if (load.getFraction(km).getSuspSandBed() > 0d) { k.add(km); ss.add(load.getFraction(km).getSuspSandBed()); } } return new double [][] { k.toNativeArray(), ss.toNativeArray() }; } public double[][] getSuspSedimentData() { Set<Double> kms = this.load.getKms(); TDoubleArrayList k = new TDoubleArrayList(); TDoubleArrayList ss = new TDoubleArrayList(); for (double km : kms) { if (load.getFraction(km).getSuspSediment() > 0d) { k.add(km); ss.add(load.getFraction(km).getSuspSediment()); } } return new double [][] { k.toNativeArray(), ss.toNativeArray() }; } public double[][] getTotalLoadData() { Set<Double> kms = this.load.getKms(); TDoubleArrayList k = new TDoubleArrayList(); TDoubleArrayList ss = new TDoubleArrayList(); for (double km : kms) { if (load.getFraction(km).getLoadTotal() > 0d) { k.add(km); ss.add(load.getFraction(km).getLoadTotal()); } } return new double [][] { k.toNativeArray(), ss.toNativeArray() }; } public boolean hasCoarseData() { return getCoarseData()[0].length > 0; } public boolean hasFineMiddleData() { return getFineMiddleData()[0].length > 0; } public boolean hasSandData() { return getSandData()[0].length > 0; } public boolean hasSuspSandData() { return getSuspSandData()[0].length > 0; } public boolean hasSuspSandBedData() { return getSuspSandBedData()[0].length > 0; } public boolean hasSuspSedimentData() { return getSuspSedimentData()[0].length > 0; } public boolean hasTotalLoadData() { return getTotalLoadData()[0].length > 0; } public boolean hasTotalData() { return getTotalData()[0].length > 0; } } // vim:set ts=4 sw=4 si et sta sts=4 fenc=utf8 :