Mercurial > dive4elements > gnv-client
view gnv-artifacts/src/main/java/de/intevation/gnv/state/profile/horizontal/HorizontalProfileMeshCrossOutputState.java @ 803:feae2f9d6c6f
Removed trailing whitespace.
gnv-artifacts/trunk@885 c6561f87-3c4e-4783-a992-168aeb5c3f6f
author | Sascha L. Teichmann <sascha.teichmann@intevation.de> |
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date | Wed, 07 Apr 2010 07:52:27 +0000 |
parents | c4156275c1e1 |
children | df6d980c5418 |
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package de.intevation.gnv.state.profile.horizontal; import com.vividsolutions.jts.geom.Coordinate; import de.intevation.artifactdatabase.Config; import de.intevation.artifacts.CallContext; import de.intevation.gnv.artifacts.cache.CacheFactory; import de.intevation.gnv.artifacts.context.GNVArtifactContext; import de.intevation.gnv.chart.Chart; import de.intevation.gnv.chart.ChartLabels; import de.intevation.gnv.chart.HorizontalCrossProfileChart; import de.intevation.gnv.geobackend.base.DefaultResult; import de.intevation.gnv.geobackend.base.DefaultResultDescriptor; import de.intevation.gnv.geobackend.base.Result; import de.intevation.gnv.geobackend.base.ResultDescriptor; import de.intevation.gnv.geobackend.base.query.QueryExecutor; import de.intevation.gnv.geobackend.base.query.QueryExecutorFactory; import de.intevation.gnv.geobackend.base.query.exception.QueryException; import de.intevation.gnv.math.Interpolation2D; import de.intevation.gnv.math.LinearMetrics; import de.intevation.gnv.math.Point2d; import de.intevation.gnv.state.InputData; import de.intevation.gnv.utils.DistanceCalculator; import de.intevation.gnv.utils.StringUtils; import de.intevation.gnv.utils.WKTUtils; import java.util.ArrayList; import java.util.Arrays; import java.util.Collection; import java.util.List; import java.util.Locale; import org.apache.log4j.Logger; import org.jfree.chart.ChartTheme; import org.w3c.dom.Node; /** * @author <a href="mailto:tim.englich@intevation.de">Tim Englich</a> * @author <a href="mailto:iweinzierl@intevation.de">Ingo Weinzierl</a> * @author <a href="mailto:sascha.teichmann@intevation.de">Sascha L. Teichmann</a> */ public class HorizontalProfileMeshCrossOutputState extends HorizontalProfileOutputState { public static final boolean USE_INDEX_BUFFER = Boolean.getBoolean("gnv.horizontal.profile.mesh.cross.index.buffer"); private static final long serialVersionUID = 2205958041745637263L; /** * the logger, used to log exceptions and additonaly information */ private static Logger log = Logger.getLogger( HorizontalProfileMeshCrossOutputState.class); private String ijkQueryID = null; /** * Constructor */ public HorizontalProfileMeshCrossOutputState() { super(); } /** * @see de.intevation.gnv.state.timeseries.TimeSeriesOutputState#setup(org.w3c.dom.Node) */ @Override public void setup(Node configuration) { super.setup(configuration); this.ijkQueryID = Config.getStringXPath(configuration,"queryID-ijk"); } @Override protected Chart getChart( ChartLabels chartLables, ChartTheme theme, Collection parameters, Collection measurements, Collection dates, Object result, Locale locale, String uuid, boolean linesVisible, boolean shapesVisible, CallContext callContext ) { Chart chart = null; if (CACHE_CHART) { log.info("Try to get horizontalprofilemeshcross chart from cache."); chart = (Chart) getChartFromCache(uuid, callContext); } if (chart != null) return chart; log.info("Chart not in cache yet."); chart = new HorizontalCrossProfileChart( chartLables, theme, parameters, measurements, dates, (Collection)result, null, locale, linesVisible, shapesVisible ); chart.generateChart(); if (CACHE_CHART) { log.info("Put chart into cache."); purifyChart(chart, uuid); } return chart; } private static int numSamples(CallContext callContext) { GNVArtifactContext context = (GNVArtifactContext)callContext.globalContext(); Integer samples = (Integer)context.get( GNVArtifactContext.HORIZONTAL_CROSS_SECTION_PROFILE_SAMPLES_KEY); return samples != null ? samples.intValue() : GNVArtifactContext.DEFAULT_HORIZONTAL_CROSS_SECTION_PROFILE_SAMPLES; } @Override protected Object getChartResult(String uuid, CallContext callContext) { log.debug("HorizontalProfileMeshCrossOutputState.getChartResult"); Collection<Result> result = null; if (CacheFactory.getInstance().isInitialized()) { String key = uuid + super.getID(); log.debug("Hash for Queryelements: " + key); net.sf.ehcache.Element value = CacheFactory.getInstance().getCache().get(key); if (value != null) { result = (Collection<Result>) (value.getObjectValue()); }else{ InputData meshLine = inputData.get("mesh_linestring"); InputData meshId = inputData.get("meshid"); if (meshLine == null) { log.error("mesh_linestring is not defined"); throw new IllegalStateException("missing mesh_linestring"); } if (meshId == null) { log.error("meshid is not defined"); throw new IllegalStateException("missing meshid"); } Coordinate [] coords = WKTUtils.toCoordinates( meshLine.getValue()); if (coords == null) { throw new IllegalStateException("cannot read coordinates"); } try { String additionWhere = USE_INDEX_BUFFER ? WKTUtils.worldCoordinatesToIndex( coords, result, meshId.getValue(), ijkQueryID) : WKTUtils.TRUE_EXPRESSION; String[] addedFilterValues = StringUtils.append( generateFilterValuesFromInputData(), additionWhere); QueryExecutor queryExecutor = QueryExecutorFactory .getInstance() .getQueryExecutor(); result = process( Arrays.asList(coords), numSamples(callContext), queryExecutor.executeQuery( queryID, addedFilterValues)); } catch (QueryException e) { log.error(e,e); } if (CacheFactory.getInstance().isInitialized()) { CacheFactory.getInstance().getCache().put(new net.sf.ehcache.Element(key, result)); } } } return result; } @Override protected String createChartSubtitle(Locale locale, String uuid) { log.debug("create chart subtitle for horizontal crossprofile charts."); String subtitle = createTimePeriod(locale, uuid); return subtitle; } public static Collection<Result> process( List<Coordinate> path, int numSamples, Collection<Result> input ) { boolean debug = log.isDebugEnabled(); if (debug) { log.debug("--- number of points before processing: " + input.size()); log.debug(" number samples: " + numSamples); } ArrayList<Result> output = new ArrayList<Result>(); Result last = null; int [] diffColums = null; SectionHandler sectionHandler = null; for (Result result: input) { if (sectionHandler == null) { ResultDescriptor rd = result.getResultDescriptor(); diffColums = rd.getColumnIndices(DIFF_COLUMS); int columns = rd.getColumnCount(); DefaultResultDescriptor resultDescriptor = new DefaultResultDescriptor(); for (int j = 0; j < columns; ++j) { String columnName = rd.getColumnName(j); if (!StringUtils.contains(COLUMN_BLACKLIST, columnName)) { resultDescriptor.addColumn( columnName, rd.getColumnClassName(j)); } } sectionHandler = new SectionHandler( path, numSamples, output, resultDescriptor); sectionHandler.setPrototyp(result); } if (last != null && WKTUtils.different(last, result, diffColums)) { sectionHandler.finish(); sectionHandler.setPrototyp(result); } sectionHandler.handle(result); last = result; } if (sectionHandler != null) { sectionHandler.finish(); } if (debug) { log.debug("--- number of points after processing: " + output.size()); } return output; } private static final String [] DIFF_COLUMS = { "GROUP1", "GROUP2", "GROUP3" }; private static final String [] COLUMN_BLACKLIST = { "MEDIAN.MESHPOINT.JPOSITION", "MEDIAN.MESHPOINT.IPOSITION" }; public static final double EPSILON = 1e-5d; public static final class SectionHandler implements Interpolation2D.Consumer { private ArrayList<Point2d> points; private List<Coordinate> path; private Collection<Result> output; private Result prototyp; private ResultDescriptor descriptor; private boolean lastWasSuccess; private int numSamples; public SectionHandler() { } public SectionHandler( List<Coordinate> path, int numSamples, Collection<Result> output, ResultDescriptor descriptor ) { this.path = path; this.numSamples = numSamples; this.output = output; this.descriptor = descriptor; points = new ArrayList<Point2d>(); lastWasSuccess = true; } public void finish() { if (!points.isEmpty()) { double distance = WKTUtils.toKM( DistanceCalculator.calculateDistance(path)); if (distance > EPSILON) { Interpolation2D.interpolate( path, points, 0d, distance, numSamples, LinearMetrics.INSTANCE, this); } points.clear(); } lastWasSuccess = true; } public void setPrototyp(Result prototyp) { this.prototyp = prototyp; } public void handle(Result result) { Coordinate coordinate = WKTUtils.toCoordinate(result.getString("SHAPE")); double value = result.getDouble("YORDINATE"); int iPos = result.getInteger("IPOSITION"); int jPos = result.getInteger("JPOSITION"); Point2d p = new Point2d( coordinate.x, coordinate.y, value, iPos, jPos); points.add(p); } public void interpolated(Coordinate coordinate, boolean success) { if (!success && !lastWasSuccess) { // only insert null if last was valid. // This prevents flooding the result set with nulls // if interpolating over a large gap. return; } DefaultResult result = new DefaultResult(descriptor); ResultDescriptor pd = prototyp.getResultDescriptor(); int pcolums = pd.getColumnCount(); for (int i = 0, j = 0; i < pcolums; ++i) { String colname = pd.getColumnName(i); if (StringUtils.contains(COLUMN_BLACKLIST, colname)) { continue; } if (colname.equals("SHAPE")) { result.addColumnValue(j, WKTUtils.toWKT(coordinate)); } else if (colname.equals("YORDINATE")) { result.addColumnValue(j, success ? Double.valueOf(coordinate.z) : null); } else { result.addColumnValue(j, prototyp.getObject(i)); } ++j; } output.add(result); lastWasSuccess = success; } } }