Mercurial > dive4elements > river
view artifacts/src/main/java/org/dive4elements/river/exports/ComputedDischargeCurveGenerator.java @ 7915:931dffefc3dd
flys/issue1628: Adjusted the PDF export.
author | Sascha L. Teichmann <teichmann@intevation.de> |
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date | Wed, 04 Jun 2014 15:34:22 +0200 |
parents | 75ef6963f1c9 |
children | 209f8a9e8a75 |
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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 org.dive4elements.artifactdatabase.state.ArtifactAndFacet; import org.dive4elements.artifactdatabase.state.Facet; import org.dive4elements.river.artifacts.D4EArtifact; import org.dive4elements.river.artifacts.StaticWKmsArtifact; import org.dive4elements.river.artifacts.WINFOArtifact; import org.dive4elements.river.artifacts.model.FacetTypes; import org.dive4elements.river.artifacts.model.WKms; import org.dive4elements.river.artifacts.model.WQKms; import org.dive4elements.river.exports.process.DischargeProcessor; import org.dive4elements.river.jfree.RiverAnnotation; import org.dive4elements.river.jfree.StickyAxisAnnotation; import org.dive4elements.river.jfree.StyledXYSeries; import org.dive4elements.river.themes.ThemeDocument; import org.dive4elements.river.utils.RiverUtils; import java.util.ArrayList; import java.util.List; import org.jfree.data.xy.XYSeries; import org.apache.log4j.Logger; /** * An OutGenerator that generates discharge curves, also at locations * not at a gauge. * * @author <a href="mailto:ingo.weinzierl@intevation.de">Ingo Weinzierl</a> */ public class ComputedDischargeCurveGenerator extends DischargeCurveGenerator implements FacetTypes { /** The logger used in this generator. */ private static Logger logger = Logger.getLogger(ComputedDischargeCurveGenerator.class); public static final String I18N_CHART_TITLE = "chart.computed.discharge.curve.title"; public static final String I18N_CHART_SUBTITLE = "chart.computed.discharge.curve.subtitle"; public static final String I18N_YAXIS_LABEL = "chart.computed.discharge.curve.yaxis.label"; public static final String I18N_CHART_TITLE_DEFAULT = "Abflusskurve"; public static final String I18N_YAXIS_LABEL_DEFAULT = "W [NN + m]"; /** Trivial Constructor. */ public ComputedDischargeCurveGenerator () { super(); } @Override protected String getDefaultChartTitle() { return msg(I18N_CHART_TITLE, I18N_CHART_TITLE_DEFAULT); } @Override protected String getDefaultChartSubtitle() { double[] dist = getRange(); Object[] args = new Object[] { getRiverName(), dist[0] }; return msg(I18N_CHART_SUBTITLE, "", args); } @Override protected String getDefaultYAxisLabel(int pos) { D4EArtifact flys = (D4EArtifact) master; String unit = RiverUtils.getRiver(flys).getWstUnit().getName(); if (pos == 0 && getCurrentGaugeDatum() != 0) unit = "cm"; return msg(I18N_YAXIS_LABEL, I18N_YAXIS_LABEL_DEFAULT, new Object[] { unit }); } /** * Process data, build up plot. */ @Override public void doOut( ArtifactAndFacet artifactFacet, ThemeDocument attr, boolean visible ) { String name = artifactFacet.getFacetName(); logger.debug("ComputedDischargeCurveGenerator.doOut: " + name); if (name == null) { logger.warn("Broken facet in computed discharge out generation."); return; } DischargeProcessor dProcessor = new DischargeProcessor(getRange()[0]); if (dProcessor.canHandle(name)) { dProcessor.doOut(this, artifactFacet, attr, visible, YAXIS.W.idx); } else if (name.equals(COMPUTED_DISCHARGE_Q)) { doDischargeQOut((WQKms) artifactFacet.getData(context), artifactFacet, attr, visible); } else if (name.equals(STATIC_WQ)) { doWQOut(artifactFacet.getData(context), artifactFacet, attr, visible); } else if (name.equals(STATIC_WQ_ANNOTATIONS)) { doWQAnnotations( artifactFacet.getData(context), artifactFacet, attr, visible); } else if (STATIC_WKMS_INTERPOL.equals(name) || HEIGHTMARKS_POINTS.equals(name) || STATIC_WQKMS_W.equals(name)) { doWAnnotations( artifactFacet.getData(context), artifactFacet, attr, visible); } else if (name.equals(STATIC_WKMS)) { doWAnnotations( artifactFacet.getData(context), artifactFacet, attr, visible); } else if (FacetTypes.IS.MANUALPOINTS(name)) { doPoints(artifactFacet.getData(context), artifactFacet, attr, visible, YAXIS.W.idx); } else if (name.equals(DISCHARGE_CURVE)) { doDischargeOut( (WINFOArtifact) artifactFacet.getArtifact(), artifactFacet.getData(context), artifactFacet.getFacetDescription(), attr, visible); } else { logger.warn("Unknown facet type for computed discharge: " + name); return; } } /** * Add WQ Data to plot. * @param wq data as double[][] */ protected void doWQOut( Object wq, ArtifactAndFacet aaf, ThemeDocument theme, boolean visible ) { logger.debug("ComputedDischargeCurveGenerator: doWQOut"); XYSeries series = new StyledXYSeries(aaf.getFacetDescription(), theme); if (wq instanceof double[][]) { double [][] data = (double [][]) wq; StyledSeriesBuilder.addPoints(series, data, true); } else if (wq instanceof WQKms) { WQKms wqkms = (WQKms) wq; StyledSeriesBuilder.addPointsQW(series, (WQKms) wq); } addAxisSeries(series, YAXIS.W.idx, visible); } /** * Add discharge Q-Series to plot, scale if at gauge. * @param wqkms actual data * @param theme theme to use. */ protected void doDischargeQOut( WQKms wqkms, ArtifactAndFacet aaf, ThemeDocument theme, boolean visible ) { logger.debug("ComputedDischargeCurveGenerator: doDischargeQOut"); XYSeries series = new StyledXYSeries(aaf.getFacetDescription(), theme); double subtractPNP = getCurrentGaugeDatum(); if (subtractPNP == 0d) { StyledSeriesBuilder.addPointsQW(series, wqkms); addAxisSeries(series, YAXIS.W.idx, visible); } else { XYSeries series2 = new StyledXYSeries(aaf.getFacetDescription(), theme); StyledSeriesBuilder.addPointsQW(series2, wqkms); addAxisSeries(series2, YAXIS.W.idx, false); // Use second axis... StyledSeriesBuilder.addPointsQW(series, wqkms, -subtractPNP, 100d); addAxisSeries(series, YAXIS.WCm.idx, visible); } } /** * Add W/Q-Series to plot. * @param wqkms actual data * @param theme theme to use. */ protected void doQOut( WQKms wqkms, ArtifactAndFacet aaf, ThemeDocument theme, boolean visible ) { logger.debug("ComputedDischargeCurveGenerator: doQOut (add W/Q data)."); XYSeries series = new StyledXYSeries(aaf.getFacetDescription(), theme); StyledSeriesBuilder.addPointsQW(series, wqkms); addAxisSeries(series, YAXIS.W.idx, visible); } /** * Add WQ-Annotations to plot. * @param wqkms actual data * @param theme theme to use. */ protected void doWQAnnotations( Object wqkms, ArtifactAndFacet aandf, ThemeDocument theme, boolean visible ) { List<StickyAxisAnnotation> xy = new ArrayList<StickyAxisAnnotation>(); double [][] data = (double [][]) wqkms; for (int i = 0; i< data[0].length; i++) { // TODO we need linear interpolation? xy.add(new StickyAxisAnnotation(aandf.getFacetDescription(), (float) data[0][i], StickyAxisAnnotation.SimpleAxis.X_AXIS)); xy.add(new StickyAxisAnnotation(aandf.getFacetDescription(), (float) data[1][i], StickyAxisAnnotation.SimpleAxis.Y_AXIS)); } doAnnotations(new RiverAnnotation(aandf.getFacetDescription(), xy), aandf, theme, visible); } /** * Add W-Annotations to plot. * @param wqkms actual data (double[][]). * @param theme theme to use. */ protected void doWAnnotations( Object wqkms, ArtifactAndFacet aandf, ThemeDocument theme, boolean visible ) { Facet facet = aandf.getFacet(); List<StickyAxisAnnotation> xy = new ArrayList<StickyAxisAnnotation>(); // Try to find them as WKms as well... if (wqkms instanceof double[][]) { logger.debug("its double[][] time, baby"); double [][] data = (double [][]) wqkms; // TODO Do we need interpolation? for (int i = 0; i< data[0].length; i++) { xy.add(new StickyAxisAnnotation(aandf.getFacetDescription(), (float) data[1][i], StickyAxisAnnotation.SimpleAxis.Y_AXIS)); } doAnnotations(new RiverAnnotation(facet.getDescription(), xy), aandf, theme, visible); } else { logger.debug("its wkms time, baby"); WKms data = (WKms) wqkms; // Assume its WKms. // XXX DEAD CODE // double location = getRange()[0]; double w = StaticWKmsArtifact.getWAtKmLin(data, getRange()[0]); xy.add(new StickyAxisAnnotation(aandf.getFacetDescription(), (float) w, StickyAxisAnnotation.SimpleAxis.Y_AXIS)); doAnnotations(new RiverAnnotation(facet.getDescription(), xy), aandf, theme, visible); } } } // vim:set ts=4 sw=4 si et sta sts=4 fenc=utf8 :