Mercurial > dive4elements > river
view artifacts/src/main/java/org/dive4elements/river/exports/minfo/BedQualityGenerator.java @ 6559:6791411ed1fc
issue1370: Force second axis if at gauge.
author | Felix Wolfsteller <felix.wolfsteller@intevation.de> |
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date | Wed, 10 Jul 2013 14:49:21 +0200 |
parents | ea6225010871 |
children | ef3b02034f6a 10646f31efec |
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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.minfo; import org.apache.log4j.Logger; import org.jfree.data.xy.XYSeries; import org.w3c.dom.Document; import org.dive4elements.artifactdatabase.state.ArtifactAndFacet; import org.dive4elements.artifactdatabase.state.Facet; import org.dive4elements.river.artifacts.model.FacetTypes; import org.dive4elements.river.artifacts.model.minfo.BedDiameterData; import org.dive4elements.river.artifacts.model.minfo.BedDiameterResult; import org.dive4elements.river.artifacts.model.minfo.BedParametersResult; import org.dive4elements.river.artifacts.model.minfo.BedloadDiameterResult; import org.dive4elements.river.exports.StyledSeriesBuilder; import org.dive4elements.river.exports.XYChartGenerator; import org.dive4elements.river.jfree.RiverAnnotation; import org.dive4elements.river.jfree.StyledXYSeries; /** * An OutGenerator that generates bed quality charts. * * @author <a href="mailto:ingo.weinzierl@intevation.de">Ingo Weinzierl</a> */ public class BedQualityGenerator extends XYChartGenerator implements FacetTypes { public enum YAXIS { W(0), P(1), D(2); protected int idx; private YAXIS(int c) { idx = c; } } /** The logger that is used in this generator. */ private static Logger logger = Logger.getLogger(BedQualityGenerator.class); public static final String I18N_CHART_TITLE = "chart.bedquality.title"; public static final String I18N_XAXIS_LABEL = "chart.bedquality.xaxis.label"; public static final String I18N_YAXIS_LABEL = "chart.bedquality.yaxis.label"; public static final String I18N_SECOND_YAXIS_LABEL = "chart.bedquality.yaxis.label.porosity"; public static final String I18N_THIRD_YAXIS_LABEL = "chart.bedquality.yaxis.label.diameter"; public static final String I18N_CHART_TITLE_DEFAULT = "Sohlen Längsschnitt"; public static final String I18N_XAXIS_LABEL_DEFAULT = "Fluss-Km"; public static final String I18N_YAXIS_LABEL_DEFAULT = "Durchmesser [mm]"; public static final String I18N_SECOND_YAXIS_LABEL_DEFAULT = "Porosität [%]"; public static final String I18N_THIRD_YAXIS_LABEL_DEFAULT = "Dichte [t/m^3]"; @Override protected YAxisWalker getYAxisWalker() { return new YAxisWalker() { @Override public int length() { return YAXIS.values().length; } @Override public String getId(int idx) { YAXIS[] yaxes = YAXIS.values(); return yaxes[idx].toString(); } }; } /** * Returns the default title for this chart. * * @return the default title for this chart. */ @Override public String getDefaultChartTitle() { return msg(I18N_CHART_TITLE, I18N_CHART_TITLE_DEFAULT); } /** * Get internationalized label for the x axis. */ @Override protected String getDefaultXAxisLabel() { return msg(I18N_XAXIS_LABEL, I18N_XAXIS_LABEL_DEFAULT, new Object[] {getRiverName()}); } @Override protected String getDefaultYAxisLabel(int index) { String label = "default"; if (index == YAXIS.W.idx) { label = getWAxisLabel(); } else if (index == YAXIS.P.idx) { label = getPAxisLabel(); } else if (index == YAXIS.D.idx) { label = getDAxisLabel(); } return label; } /** * Get internationalized label for the y axis displaying the diameter. */ protected String getWAxisLabel() { return msg(I18N_YAXIS_LABEL, I18N_YAXIS_LABEL_DEFAULT); } /** * Get internationalized label for the y axis displaying the porosity. */ protected String getPAxisLabel() { return msg(I18N_SECOND_YAXIS_LABEL, I18N_SECOND_YAXIS_LABEL_DEFAULT); } /** * Get internationalized label for the y axis displaying the density. */ protected String getDAxisLabel() { return msg(I18N_THIRD_YAXIS_LABEL, I18N_THIRD_YAXIS_LABEL_DEFAULT); } /** * Produce output. * * @param artifactAndFacet * current facet. * @param attr * theme for facet */ public void doOut(ArtifactAndFacet artifactAndFacet, Document attr, boolean visible) { String name = artifactAndFacet.getFacetName(); logger.debug("BedQualityGenerator.doOut: " + name); if (name == null) { logger.error("No facet name for doOut(). No output generated!"); return; } Facet facet = artifactAndFacet.getFacet(); if (facet == null) { return; } // TODO BED_QUALITY_BED_DIAMETER_TOPLAYER if (name.equals(BED_QUALITY_BED_DIAMETER_TOPLAYER)) { doBedDiameterTopLayerOut( (BedDiameterResult) artifactAndFacet.getData(context), artifactAndFacet, attr, visible); } else if (name.equals(BED_QUALITY_BED_DIAMETER_SUBLAYER)) { doBedDiameterSubLayerOut( (BedDiameterResult) artifactAndFacet.getData(context), artifactAndFacet, attr, visible); } // TODO BED_QUALITY_BED_DIAMETER_SUBLAYER else if (name.equals(BED_QUALITY_BEDLOAD_DIAMETER)) { doBedLoadDiameterOut( (BedloadDiameterResult) artifactAndFacet.getData(context), artifactAndFacet, attr, visible); } else if (name.equals(BED_QUALITY_POROSITY_TOPLAYER)) { doPorosityTopLayerOut( (BedParametersResult) artifactAndFacet.getData(context), artifactAndFacet, attr, visible); } else if (name.equals(BED_QUALITY_POROSITY_SUBLAYER)) { doPorositySubLayerOut( (BedParametersResult) artifactAndFacet.getData(context), artifactAndFacet, attr, visible); } else if (name.equals(BED_QUALITY_SEDIMENT_DENSITY_TOPLAYER)) { doDensityTopLayerOut( (BedParametersResult) artifactAndFacet.getData(context), artifactAndFacet, attr, visible); } else if (name.equals(BED_QUALITY_SEDIMENT_DENSITY_SUBLAYER)) { doDensitySubLayerOut( (BedParametersResult) artifactAndFacet.getData(context), artifactAndFacet, attr, visible); } else if (name.equals(BED_DIAMETER_DATA_TOP) || name.equals(BED_DIAMETER_DATA_SUB) || name.equals(BEDLOAD_DIAMETER_DATA)) { doBedDiameterDataOut( (BedDiameterData) artifactAndFacet.getData(context), artifactAndFacet, attr, visible); } else if (name.equals(LONGITUDINAL_ANNOTATION)) { doAnnotations( (RiverAnnotation) artifactAndFacet.getData(context), artifactAndFacet, attr, visible); } else if (FacetTypes.IS.MANUALPOINTS(name)) { doPoints(artifactAndFacet.getData(context), artifactAndFacet, attr, visible, YAXIS.W.idx); } else { logger.warn("Unknown facet name: " + name); return; } } private void doBedDiameterDataOut( BedDiameterData data, ArtifactAndFacet aandf, Document theme, boolean visible ) { XYSeries series = new StyledXYSeries(aandf.getFacetDescription(), theme); StyledSeriesBuilder.addPoints(series, data.getDiameterData(), true); addAxisSeries(series, YAXIS.W.idx, visible); } protected void doBedDiameterTopLayerOut(BedDiameterResult data, ArtifactAndFacet aandf, Document theme, boolean visible) { logger.debug("BedQuality.doBedDiameterTopLayerOut"); XYSeries series = new StyledXYSeries(aandf.getFacetDescription(), theme); StyledSeriesBuilder.addPoints(series, data.getDiameterCapData(), true); addAxisSeries(series, YAXIS.W.idx, visible); } protected void doBedDiameterSubLayerOut(BedDiameterResult data, ArtifactAndFacet aandf, Document theme, boolean visible) { logger.debug("BedQuality.doBedDiameterSubLayerOut"); XYSeries series = new StyledXYSeries(aandf.getFacetDescription(), theme); StyledSeriesBuilder.addPoints(series, data.getDiameterSubData(), true); addAxisSeries(series, YAXIS.W.idx, visible); } protected void doBedLoadDiameterOut(BedloadDiameterResult data, ArtifactAndFacet aandf, Document theme, boolean visible) { logger.debug("BedQuality.doBedLoadDiameterOut"); XYSeries series = new StyledXYSeries(aandf.getFacetDescription(), theme); StyledSeriesBuilder.addPoints(series, data.getDiameterData(), true); addAxisSeries(series, YAXIS.W.idx, visible); } protected void doPorosityTopLayerOut(BedParametersResult data, ArtifactAndFacet aandf, Document theme, boolean visible) { logger.debug("BedQuality.doPorosityTopLayerOut"); XYSeries series = new StyledXYSeries(aandf.getFacetDescription(), theme); StyledSeriesBuilder.addPoints(series, data.getPorosityCapData(), true); addAxisSeries(series, YAXIS.P.idx, visible); } protected void doPorositySubLayerOut(BedParametersResult data, ArtifactAndFacet aandf, Document theme, boolean visible) { logger.debug("BedQuality.doPorositySubLayerOut"); XYSeries series = new StyledXYSeries(aandf.getFacetDescription(), theme); StyledSeriesBuilder.addPoints(series, data.getPorositySubData(), true); addAxisSeries(series, YAXIS.P.idx, visible); } protected void doDensityTopLayerOut(BedParametersResult data, ArtifactAndFacet aandf, Document theme, boolean visible) { logger.debug("BedQuality.doDensityOut"); XYSeries series = new StyledXYSeries(aandf.getFacetDescription(), theme); StyledSeriesBuilder.addPoints(series, data.getDensityCapData(), true); addAxisSeries(series, YAXIS.D.idx, visible); } protected void doDensitySubLayerOut(BedParametersResult data, ArtifactAndFacet aandf, Document theme, boolean visible) { logger.debug("BedQuality.doDensityOut"); XYSeries series = new StyledXYSeries(aandf.getFacetDescription(), theme); StyledSeriesBuilder.addPoints(series, data.getDensitySubData(), true); addAxisSeries(series, YAXIS.D.idx, visible); } } // vim:set ts=4 sw=4 si et sta sts=4 fenc=utf8 :