Mercurial > dive4elements > river
view flys-backend/src/main/java/de/intevation/flys/importer/parsers/FlowVelocityModelParser.java @ 4198:1cdbd8a0c994
Added two new tables ClickableQDTable and ClickableWTable and made Ws and Qs clickable in historical discharge calculation.
The new tables define listener interfaces (clicked lower or upper icon) to listen to user clicks.
In addition to this, there is an enum ClickMode with NONE, SINGLE and RANGE options, which allows to
specifiy, which icons are displayed in the tables. NONE means no icon for user clicks, SINGLE has 1
icon, RANGE 2 icons for lower and upper.
| author | Ingo Weinzierl <ingo.weinzierl@intevation.de> |
|---|---|
| date | Mon, 22 Oct 2012 13:31:25 +0200 |
| parents | f63b39799d2d |
| children | b3dd14fc13a6 |
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package de.intevation.flys.importer.parsers; import java.math.BigDecimal; import java.text.NumberFormat; import java.text.ParseException; import java.util.ArrayList; import java.util.List; import java.util.regex.Matcher; import java.util.regex.Pattern; import org.apache.log4j.Logger; import de.intevation.flys.importer.ImportDischargeZone; import de.intevation.flys.importer.ImportFlowVelocityModel; import de.intevation.flys.importer.ImportFlowVelocityModelValue; public class FlowVelocityModelParser extends LineParser { private static final Logger log = Logger.getLogger(FlowVelocityModelParser.class); private static final Pattern META_REGEX = Pattern.compile(".*Rechnung (.*) \\(Pegel (.*)\\).*"); private static final Pattern META_GAUGE = Pattern.compile("(.*) Q=(\\w*)m3/s"); private static final Pattern META_MAINVALUE_A = Pattern.compile("([a-zA-Z]+)+(\\d+)*"); private static final Pattern META_MAINVALUE_B = Pattern.compile("(([a-zA-Z]+)+(\\d+)*)\\s*-\\s*(([a-zA-Z]+)+(\\d+)*)"); private static final Pattern META_MAINVALUE_C = Pattern.compile("([0-9]++)\\s?(\\w*)|([0-9]++,[0-9]++)\\s?(\\w*)"); private static final Pattern META_MAINVALUE_D = Pattern.compile("(([0-9]*)\\s?(\\w*)|([0-9]++,[0-9]++)\\s?(\\w*)) bis (([0-9]*)\\s?(\\w*)|([0-9]++,[0-9]++)\\s?(\\w*))"); private static final Pattern META_MAINVALUE_E = Pattern.compile("(([a-zA-Z]+)+(\\d+)*) bis (([a-zA-Z]+)+(\\d+)*)"); private static final NumberFormat nf = NumberFormat.getInstance(DEFAULT_LOCALE); private List<ImportFlowVelocityModel> models; private ImportFlowVelocityModel current; public FlowVelocityModelParser() { models = new ArrayList<ImportFlowVelocityModel>(); } public List<ImportFlowVelocityModel> getModels() { return models; } @Override protected void reset() { current = new ImportFlowVelocityModel(); } @Override protected void finish() { models.add(current); } @Override protected void handleLine(int lineNum, String line) { if (line.startsWith(START_META_CHAR)) { handleMetaLine(stripMetaLine(line)); } else { handleDataLine(line); } } protected void handleMetaLine(String line) { Matcher m = META_REGEX.matcher(line); if (m.matches()) { String mainValueStr = m.group(1); String gaugeStr = m.group(2); Object[] valueData = handleMainValueString(mainValueStr); Object[] gaugeData = handleGaugeString(gaugeStr); if (valueData == null || valueData.length < 2) { log.warn("skip invalid MainValue part: '" + line + "'"); return; } if (gaugeData == null || gaugeData.length < 2) { log.warn("skip invalid gauge part: '" + line + "'"); return; } if (log.isDebugEnabled()) { log.debug("Found meta information:"); log.debug(" Gauge: " + gaugeData[0]); log.debug(" Value: " + gaugeData[1]); log.debug(" Lower: " + valueData[0]); log.debug(" upper: " + valueData[1]); } current.setDischargeZone(new ImportDischargeZone( (String) gaugeData[0], (BigDecimal) gaugeData[1], (String) valueData[0], (String) valueData[1] )); } } protected Object[] handleMainValueString(String mainValueStr) { Matcher mA = META_MAINVALUE_A.matcher(mainValueStr); if (mA.matches()) { String name = mA.group(0); return new Object[] { name, name }; } Matcher mB = META_MAINVALUE_B.matcher(mainValueStr); if (mB.matches()) { String lower = mB.group(1); String upper = mB.group(4); return new Object[] { lower, upper }; } Matcher mC = META_MAINVALUE_C.matcher(mainValueStr); if (mC.matches()) { String facA = mC.group(1); String nameA = mC.group(2); String facB = mC.group(3); String nameB = mC.group(4); String fac = facA != null ? facA : facB; String name = nameA != null ? nameA : nameB; String mainValue = fac + " " + name; return new Object[] { mainValue, mainValue }; } Matcher mD = META_MAINVALUE_D.matcher(mainValueStr); if (mD.matches()) { String loFacA = mD.group(2); String loNameA = mD.group(3); String loFacB = mD.group(4); String loNameB = mD.group(5); String upFacA = mD.group(7); String upNameA = mD.group(8); String upFacB = mD.group(9); String upNameB = mD.group(10); String loFac = loFacA != null ? loFacA : loFacB; String loName = loNameA != null ? loNameA : loNameB; String upFac = upFacA != null ? upFacA : upFacB; String upName = upNameA != null ? upNameA : upNameB; String loMainValue = loFac + " " + loName; String upMainValue = upFac + " " + upName; return new Object[] { loMainValue, upMainValue }; } Matcher mE = META_MAINVALUE_E.matcher(mainValueStr); if (mE.matches()) { String lower = mE.group(1); String upper = mE.group(4); return new Object[] { lower, upper }; } return null; } protected Object[] handleGaugeString(String gaugeStr) { Matcher m = META_GAUGE.matcher(gaugeStr); if (m.matches()) { String name = m.group(1); String qStr = m.group(2); try { return new Object[] { name, new BigDecimal(nf.parse(qStr).doubleValue()) }; } catch (ParseException pe) { log.warn("Error while parsing Q value: '" + qStr + "'"); } } return null; } protected void handleDataLine(String line) { String[] cols = line.split(SEPERATOR_CHAR); if (cols.length < 5) { log.warn("skip invalid data line: '" + line + "'"); return; } try { double km = nf.parse(cols[0]).doubleValue(); double q = nf.parse(cols[1]).doubleValue(); double total = nf.parse(cols[2]).doubleValue(); double main = nf.parse(cols[3]).doubleValue(); double stress = nf.parse(cols[4]).doubleValue(); current.addValue(new ImportFlowVelocityModelValue( new BigDecimal(km), new BigDecimal(q), new BigDecimal(total), new BigDecimal(main), new BigDecimal(stress) )); } catch (ParseException pe) { log.warn("Error while parsing flow velocity values.", pe); } } } // vim:set ts=4 sw=4 si et sta sts=4 fenc=utf8 :