Mercurial > dive4elements > river
view artifacts/src/main/java/org/dive4elements/river/exports/minfo/SedimentLoadLSGenerator.java @ 6332:f5bb53106ae8
Remove createBarriersLayer and createBarriers
The generated mapfiles did not work and were just confusing. This
looks like historical cruft that was never deleted. The real barrier
mapfiles are created in the Floodmap state
author | Andre Heinecke <aheinecke@intevation.de> |
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date | Thu, 13 Jun 2013 17:24:56 +0200 |
parents | 7e3cd23f8671 |
children | 682a73729fda |
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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 java.util.Arrays; 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.D4EArtifact; import org.dive4elements.river.artifacts.access.RangeAccess; import org.dive4elements.river.artifacts.access.SedimentLoadAccess; import org.dive4elements.river.artifacts.model.FacetTypes; import org.dive4elements.river.artifacts.model.FlowVelocityData; import org.dive4elements.river.artifacts.model.WKms; import org.dive4elements.river.artifacts.model.minfo.BedDiffEpochResult; import org.dive4elements.river.artifacts.model.minfo.BedDiffYearResult; import org.dive4elements.river.exports.StyledSeriesBuilder; import org.dive4elements.river.exports.XYChartGenerator; import org.dive4elements.river.jfree.Bounds; import org.dive4elements.river.jfree.DoubleBounds; import org.dive4elements.river.jfree.RiverAnnotation; import org.dive4elements.river.jfree.StyledXYSeries; import org.dive4elements.river.utils.DataUtil; public class SedimentLoadLSGenerator extends XYChartGenerator implements FacetTypes { public enum YAXIS { L(0), D(1), DW(2), V(3); protected int idx; private YAXIS(int c) { idx = c; } } /** The logger that is used in this generator. */ private static Logger logger = Logger.getLogger(SedimentLoadLSGenerator.class); public static final String I18N_CHART_TITLE = "chart.sedimentload.ls.title"; public static final String I18N_XAXIS_LABEL = "chart.sedimentload.ls.xaxis.label"; public static final String I18N_YAXIS_LABEL_1 = "chart.sedimentload.ls.yaxis.label.tpera"; public static final String I18N_YAXIS_LABEL_2 = "chart.sedimentload.ls.yaxis.label.m3pera"; public static final String I18N_YAXIS_D_LABEL = "chart.beddifference.yaxis.label.diff"; public static final String I18N_YAXIS_V_LABEL = "chart.flow_velocity.section.yaxis.label"; public final static String I18N_WDIFF_YAXIS_LABEL = "chart.w_differences.yaxis.label"; public final static String I18N_WDIFF_YAXIS_LABEL_DEFAULT = "m"; public static final String I18N_CHART_TITLE_DEFAULT = "Sedimentfracht"; public static final String I18N_XAXIS_LABEL_DEFAULT = "Fluss-Km"; public static final String I18N_YAXIS_LABEL_DEFAULT_1 = "[t/a]"; public static final String I18N_YAXIS_LABEL_DEFAULT_2 = "[m\u00b3/a]"; public static final String I18N_YAXIS_D_LABEL_DEFAULT = "delta S [m]"; public static final String I18N_YAXIS_V_LABEL_DEFAULT = "Geschwindigkeit v [m/s]"; private D4EArtifact artifact; @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(); } }; } @Override public void doOut(ArtifactAndFacet bundle, Document attr, boolean visible) { String name = bundle.getFacetName(); logger.debug("doOut: " + name); if (name == null) { logger.error("No facet name for doOut(). No output generated!"); return; } Facet facet = bundle.getFacet(); artifact = (D4EArtifact)bundle.getArtifact(); if (facet == null) { return; } if (getXBounds(0) != null && getDomainAxisRange() != null) { logger.debug(Arrays.toString(getDomainAxisRangeFromRequest())); Bounds bounds = calculateZoom(getXBounds(0), getDomainAxisRange()); context.putContextValue("startkm", bounds.getLower()); context.putContextValue("endkm", bounds.getUpper()); } else if (getXBounds(0) != null && getDomainAxisRange() == null) { context.putContextValue("startkm", getXBounds(0).getLower()); context.putContextValue("endkm", getXBounds(0).getUpper()); } else if (getXBounds(0) == null && getDomainAxisRange() == null) { D4EArtifact artifact = (D4EArtifact)bundle.getArtifact(); RangeAccess access = new RangeAccess(artifact); context.putContextValue("startkm", access.getFrom()); context.putContextValue("endkm", access.getTo()); } else if (getXBounds(0) == null && getDomainAxisRange() != null){ D4EArtifact artifact = (D4EArtifact)bundle.getArtifact(); RangeAccess access = new RangeAccess(artifact); Bounds b = new DoubleBounds(access.getFrom(), access.getTo()); Bounds bounds = calculateZoom(b, getDomainAxisRange()); context.putContextValue("startkm", bounds.getLower()); context.putContextValue("endkm", bounds.getUpper()); } if (FacetTypes.IS.SEDIMENT_LOAD(name)) { doSedimentLoadOut( (double[][]) bundle.getData(context), bundle, attr, visible); } else if (name.equals(FLOW_VELOCITY_TOTALCHANNEL)) { doFlowVelocityTotalOut( (FlowVelocityData) bundle.getData(context), bundle, attr, visible); } else if (name.equals(FLOW_VELOCITY_TOTALCHANNEL_FILTERED)) { doFlowVelocityTotalOut( (FlowVelocityData) bundle.getData(context), bundle, attr, visible); } else if (name.equals(FLOW_VELOCITY_MAINCHANNEL)) { doFlowVelocityMainOut( (FlowVelocityData) bundle.getData(context), bundle, attr, visible); } else if (name.equals(FLOW_VELOCITY_MAINCHANNEL_FILTERED)) { doFlowVelocityMainOut( (FlowVelocityData) bundle.getData(context), bundle, attr, visible); } else if (name.equals(BED_DIFFERENCE_YEAR)) { doBedDifferenceYearOut( (BedDiffYearResult) bundle.getData(context), bundle, attr, visible); } else if (name.equals(BED_DIFFERENCE_YEAR_FILTERED)) { doBedDifferenceYearOut( (BedDiffYearResult) bundle.getData(context), bundle, attr, visible); } else if (name.equals(BED_DIFFERENCE_EPOCH)) { doBedDifferenceEpochOut( (BedDiffEpochResult) bundle.getData(context), bundle, attr, visible); } else if (name.equals(W_DIFFERENCES)) { doWDifferencesOut( (WKms) bundle.getData(context), bundle, attr, visible); } else if (name.equals(LONGITUDINAL_ANNOTATION)) { doAnnotations( (RiverAnnotation) bundle.getData(context), bundle, attr, visible); } else if (FacetTypes.IS.MANUALPOINTS(name)) { doPoints( bundle.getData(context), bundle, attr, visible, YAXIS.L.idx); } } @Override protected String getDefaultChartTitle() { return msg(I18N_CHART_TITLE, I18N_CHART_TITLE_DEFAULT); } @Override protected String getDefaultXAxisLabel() { return msg(I18N_XAXIS_LABEL, I18N_XAXIS_LABEL_DEFAULT); } @Override protected String getDefaultYAxisLabel(int pos) { String label = "default"; if (pos == YAXIS.L.idx) { SedimentLoadAccess access = new SedimentLoadAccess(artifact); if (access.getUnit().equals("m3_per_a")) { label = msg(I18N_YAXIS_LABEL_2, I18N_YAXIS_LABEL_DEFAULT_2); } else { label = msg(I18N_YAXIS_LABEL_1, I18N_YAXIS_LABEL_DEFAULT_1); } } else if (pos == YAXIS.V.idx) { label = msg(I18N_YAXIS_V_LABEL, I18N_YAXIS_V_LABEL_DEFAULT); } else if (pos == YAXIS.D.idx) { label = msg(I18N_YAXIS_D_LABEL, I18N_YAXIS_D_LABEL_DEFAULT); } else if (pos == YAXIS.DW.idx) { label = msg(I18N_WDIFF_YAXIS_LABEL, I18N_WDIFF_YAXIS_LABEL_DEFAULT); } return label; } protected void doSedimentLoadOut(double[][] data, ArtifactAndFacet aandf, Document theme, boolean visible) { // Allow for gaps (NaNs). XYSeries series = new StyledXYSeries(aandf.getFacetDescription(), false, theme); StyledSeriesBuilder.addPoints(series, data, false); addAxisSeries(series, YAXIS.L.idx, visible); } protected void doFlowVelocityMainOut( FlowVelocityData data, ArtifactAndFacet aandf, Document theme, boolean visible ) { XYSeries series = new StyledXYSeries(aandf.getFacetDescription(), theme); StyledSeriesBuilder.addPoints(series, data.getMainChannelPoints(), true); addAxisSeries(series, YAXIS.V.idx, visible); } protected void doFlowVelocityTotalOut( FlowVelocityData data, ArtifactAndFacet aandf, Document theme, boolean visible ) { if (data == null) { logger.warn("No data to add to FlowVelocity chart."); return; } XYSeries series = new StyledXYSeries(aandf.getFacetDescription(), theme); StyledSeriesBuilder.addPoints(series, data.getTotalChannelPoints(), true); addAxisSeries(series, YAXIS.V.idx, visible); } protected void doBedDifferenceYearOut( BedDiffYearResult data, ArtifactAndFacet aandf, Document theme, boolean visible ) { XYSeries series = new StyledXYSeries(aandf.getFacetDescription(), theme); StyledSeriesBuilder.addPoints(series, data.getDifferencesData(), true); addAxisSeries(series, YAXIS.D.idx, visible); } protected void doBedDifferenceEpochOut( BedDiffEpochResult data, ArtifactAndFacet aandf, Document theme, boolean visible ) { XYSeries series = new StyledXYSeries(aandf.getFacetDescription(), theme); StyledSeriesBuilder.addPoints(series, data.getDifferencesData(), true); addAxisSeries(series, YAXIS.D.idx, visible); } protected void doWDifferencesOut( WKms wkms, ArtifactAndFacet aandf, Document theme, boolean visible ) { if (wkms == null) { logger.warn("No data to add to WDifferencesChart."); return; } XYSeries series = new StyledXYSeries(aandf.getFacetDescription(), theme); StyledSeriesBuilder.addPoints(series, wkms); addAxisSeries(series, YAXIS.D.idx, visible); if (DataUtil.guessWaterIncreasing(wkms.allWs())) { setInverted(true); } } }