Mercurial > dive4elements > river
view flys-artifacts/src/main/java/de/intevation/flys/artifacts/model/FlowVelocityCalculation.java @ 4837:9e25c7523485
Fixed calculation of effective width in MINFO SQ relation.
* Get all (including empty datasets) from db.
* Filter empty datasets when processing data of the same date.
* Added debug outputs.
author | Raimund Renkert <rrenkert@intevation.de> |
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date | Wed, 23 Jan 2013 11:14:41 +0100 |
parents | 89322548b044 |
children | c7ce7c9e405e |
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package de.intevation.flys.artifacts.model; import java.util.ArrayList; import java.util.Collections; import java.util.List; import de.intevation.artifacts.Artifact; import de.intevation.flys.artifacts.access.FlowVelocityAccess; import de.intevation.flys.model.DischargeZone; import de.intevation.flys.model.FlowVelocityModel; import de.intevation.flys.model.FlowVelocityModelValue; import de.intevation.flys.model.River; import org.apache.log4j.Logger; /** Calculate flow velocity. */ public class FlowVelocityCalculation extends Calculation { /** Own logger. */ private static final Logger logger = Logger.getLogger(FlowVelocityCalculation.class); public CalculationResult calculate(FlowVelocityAccess access) { logger.info("FlowVelocityCalculation.calculate"); int[] mainIds = access.getMainChannels(); int[] totalIds = access.getTotalChannels(); if (logger.isDebugEnabled()) { Artifact a = access.getArtifact(); logger.debug("Artifact '" + a.identifier() + "' contains:"); if (mainIds != null) { logger.debug(" " + mainIds.length + " main channel ids"); } if (totalIds != null) { logger.debug(" " + totalIds.length + " total channel ids"); } } List<DischargeZone> zones = getDischargeZones(mainIds, totalIds); List<FlowVelocityModel> models = getFlowVelocityModels(access, zones); return buildCalculationResult(access, models); } protected List<DischargeZone> getDischargeZones( int[] mainIds, int[] totalIds ) { List<DischargeZone> zones = new ArrayList<DischargeZone>(); if (mainIds != null) { for (int id: mainIds) { DischargeZone zone = DischargeZone.getDischargeZoneById(id); zone.putType("main"); if (zone != null) { zones.add(zone); } } } if (totalIds != null) { for (int id: totalIds) { DischargeZone zone = DischargeZone.getDischargeZoneById(id); if (zone != null) { int ndx = zones.indexOf(zone); if (zones.contains(zone) && zones.get(ndx).fetchType().equals("main")) { zone.putType("main_total"); } else { zone.putType("total"); zones.add(zone); } } } } return zones; } protected List<FlowVelocityModel> getFlowVelocityModels( FlowVelocityAccess access, List<DischargeZone> zones ) { String riverName = access.getRiver(); if (riverName == null) { logger.warn("No river name found"); return Collections.<FlowVelocityModel>emptyList(); } River river = RiverFactory.getRiver(riverName); if (river == null) { logger.warn("No such river: " + riverName); return Collections.<FlowVelocityModel>emptyList(); } List<FlowVelocityModel> models = new ArrayList<FlowVelocityModel>(); for (DischargeZone zone: zones) { List<FlowVelocityModel> model = FlowVelocityModel.getModels(river, zone); if (model != null) { models.addAll(model); } } return models; } protected void prepareData( FlowVelocityData data, FlowVelocityModel model, double kmLo, double kmHi ) { List<FlowVelocityModelValue> values = FlowVelocityModelValue.getValues(model, kmLo, kmHi); logger.debug("Found " + values.size() + " values for model."); for (FlowVelocityModelValue value: values) { data.addKM(value.getStation().doubleValue()); data.addQ(value.getQ().doubleValue()); data.addVTotal(value.getTotalChannel().doubleValue()); data.addVMain(value.getMainChannel().doubleValue()); data.addTauMain(value.getShearStress().doubleValue()); } DischargeZone zone = model.getDischargeZone(); String lo = zone.getLowerDischarge(); String hi = zone.getUpperDischarge(); data.setType(zone.fetchType()); if (lo.equals(hi)) { data.setZone(lo); } else { data.setZone(lo + " - " + hi); } } protected CalculationResult buildCalculationResult( FlowVelocityAccess access, List<FlowVelocityModel> models ) { double kmLo = access.getLowerKM(); double kmHi = access.getUpperKM(); logger.debug("Prepare data for km range: " + kmLo + " - " + kmHi); FlowVelocityData[] data = new FlowVelocityData[models.size()]; for (int i = 0, n = models.size(); i < n; i++) { FlowVelocityData d = new FlowVelocityData(); prepareData(d, models.get(i), kmLo, kmHi); data[i] = d; } logger.debug("Calculation contains " + data.length + " data items."); return new CalculationResult(data, this); } } // vim:set ts=4 sw=4 si et sta sts=4 fenc=utf-8 :