Mercurial > dive4elements > river
view artifacts/src/main/java/org/dive4elements/river/artifacts/model/Calculation4.java @ 6665:b7945db8a43b
issue1413: Only show unknown sediment loads of selected unit type.
Therefore, adjusted the factory to take the units name. Unfortunately,
names in db do not match values of data items. Thus do manual replacing.
In Facet and Calculate, take the chosen unit via access and to the string
replacement.
In Facet, do not transform data (we assume it comes in unit as labeled in
the db), and removed the possibility of m3/a-data of unknown yields in a
t/a diagram and vice versa.
author | Felix Wolfsteller <felix.wolfsteller@intevation.de> |
---|---|
date | Thu, 25 Jul 2013 15:08:13 +0200 |
parents | af13ceeba52a |
children | fe32a7f9655e |
line wrap: on
line source
/* 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.artifacts.model; import org.dive4elements.river.artifacts.access.Calculation4Access; import org.dive4elements.river.artifacts.math.BackJumpCorrector; import org.dive4elements.river.artifacts.math.Function; import org.dive4elements.river.artifacts.math.Identity; import org.dive4elements.river.artifacts.math.Linear; import org.dive4elements.river.artifacts.model.WstValueTable.QPosition; import org.dive4elements.river.model.River; import org.dive4elements.river.utils.DoubleUtil; import java.util.ArrayList; import java.util.Arrays; import java.util.List; import org.apache.log4j.Logger; public class Calculation4 extends Calculation { private static Logger logger = Logger.getLogger(Calculation4.class); public static final double MINIMAL_STEP_WIDTH = 1e-5; protected List<Segment> segments; protected boolean isQ; protected double from; protected double to; protected double step; protected String river; public Calculation4() { } public Calculation4(Calculation4Access access) { logger.debug("Calculation4Access.cnst"); String river = access.getRiver(); List<Segment> segments = access.getSegments(); double [] range = access.getFromToStep(); boolean isQ = access.isQ(); if (river == null) { addProblem("no.river.selected"); } if (range == null) { addProblem("no.range.found"); } if (segments == null || segments.isEmpty()) { addProblem("cannot.create.segments"); } if (!hasProblems()) { this.river = river; this.segments = segments; this.from = range[0]; this.to = range[1]; this.step = range[2]; this.isQ = isQ; } } public CalculationResult calculate() { if (hasProblems()) { return new CalculationResult(new WQKms[0], this); } WstValueTable table = null; River r = RiverFactory.getRiver(river); if (r == null) { addProblem("no.river.found"); } else { table = WstValueTableFactory.getTable(r); if (table == null) { addProblem("no.wst.for.river"); } else { Segment.setReferencePointConvertQ(segments, r, isQ, this); } } return hasProblems() ? new CalculationResult(new WQKms[0], this) : innerCalculate(table); } protected CalculationResult innerCalculate(WstValueTable table) { boolean debug = logger.isDebugEnabled(); if (debug) { logger.debug( "calculate from " + from + " to " + to + " step " + step); logger.debug("# segments: " + segments.size()); for (Segment segment: segments) { logger.debug(" " + segment); } } int numResults = segments.get(0).values.length; if (numResults < 1) { logger.debug("no values given"); addProblem("no.values.given"); return new CalculationResult(new WQKms[0], this); } WQKms [] results = new WQKms[numResults]; for (int i = 0; i < results.length; ++i) { results[i] = new WQKms(); } if (Math.abs(step) < MINIMAL_STEP_WIDTH) { step = MINIMAL_STEP_WIDTH; } if (from > to) { step = -step; } QPosition [] qPositions = new QPosition[numResults]; Function [] functions = new Function[numResults]; double [] out = new double[2]; Segment sentinel = new Segment(Double.MAX_VALUE); Segment s1 = sentinel, s2 = sentinel; for (double pos = from; from < to ? pos <= to : pos >= to; pos = DoubleUtil.round(pos + step) ) { if (pos < s1.referencePoint || pos > s2.referencePoint) { if (debug) { logger.debug("need to find new interval for " + pos); } // find new interval if (pos <= segments.get(0).referencePoint) { // before first segment -> "gleichwertig" if (debug) { logger.debug("before first segment -> gleichwertig"); } Segment first = segments.get(0); double [] values = first.values; double refPos = first.referencePoint; for (int i = 0; i < qPositions.length; ++i) { qPositions[i] = table.getQPosition( refPos, values[i]); } sentinel.setReferencePoint(-Double.MAX_VALUE); s1 = sentinel; s2 = segments.get(0); Arrays.fill(functions, Identity.IDENTITY); } else if (pos >= segments.get(segments.size()-1).referencePoint) { // after last segment -> "gleichwertig" if (debug) { logger.debug("after last segment -> gleichwertig"); } Segment last = segments.get(segments.size()-1); double [] values = last.values; double refPos = last.referencePoint; for (int i = 0; i < qPositions.length; ++i) { qPositions[i] = table.getQPosition( refPos, values[i]); } sentinel.setReferencePoint(Double.MAX_VALUE); s1 = last; s2 = sentinel; Arrays.fill(functions, Identity.IDENTITY); } else { // "ungleichwertig" // find matching interval if (debug) { logger.debug("in segments -> ungleichwertig"); } s1 = s2 = null; for (int i = 1, N = segments.size(); i < N; ++i) { Segment si1 = segments.get(i-1); Segment si = segments.get(i); if (debug) { logger.debug("check " + pos + " in " + si1.referencePoint + " - " + si.referencePoint); } if (pos >= si1.referencePoint && pos <= si. referencePoint) { s1 = si1; s2 = si; break; } } if (s1 == null) { throw new IllegalStateException("no interval found"); } Segment anchor, free; if (from > to) { anchor = s1; free = s2; } else { anchor = s2; free = s1; } // build transforms based on "gleichwertiger" phase for (int i = 0; i < qPositions.length; ++i) { QPosition qi = table.getQPosition( anchor.referencePoint, anchor.values[i]); if ((qPositions[i] = qi) == null) { addProblem(pos, "cannot.find.q", anchor.values[i]); functions[i] = Identity.IDENTITY; } else { double qA = table.getQ(qi, anchor.referencePoint); double qF = table.getQ(qi, free .referencePoint); functions[i] = Double.isNaN(qA) || Double.isNaN(qF) ? Identity.IDENTITY : new Linear( qA, qF, anchor.values[i], free.values[i]); if (debug) { logger.debug( anchor.referencePoint + ": " + qA + " -> " + functions[i].value(qA) + " / " + free.referencePoint + ": " + qF + " -> " + functions[i].value(qF)); } } } // build transforms } // "ungleichwertiges" interval } // find matching interval for (int i = 0; i < qPositions.length; ++i) { QPosition qPosition = qPositions[i]; if (qPosition == null) { continue; } if (table.interpolate(pos, out, qPosition, functions[i])) { results[i].add(out[0], out[1], pos); } else { addProblem(pos, "cannot.interpolate.w.q"); } } } // Backjump correction for (int i = 0; i < results.length; ++i) { BackJumpCorrector bjc = new BackJumpCorrector(); double [] ws = results[i].getWs(); double [] kms = results[i].getKms(); if (bjc.doCorrection(kms, ws, this)) { results[i] = new WQCKms(results[i], bjc.getCorrected()); } } // Name the curves. for (int i = 0; i < results.length; ++i) { results[i].setName(createName(i)); } // Generate the "Umhuellende". ConstantWQKms [] infoldings = generateInfolding(table, results, from, to, step); // TODO: Use qkms in a new result type. WQKms [] newResults = new WQKms[results.length + infoldings.length]; System.arraycopy( results, 0, newResults, 0, results.length); System.arraycopy( infoldings, 0, newResults, results.length, infoldings.length); return new CalculationResult(newResults, this); } protected ConstantWQKms [] generateInfolding( WstValueTable wst, WQKms [] results, double from, double to, double step ) { WstValueTable.Column [] columns = wst.getColumns(); InfoldingColumns ic = new InfoldingColumns(columns); ic.markInfoldingColumns(results); List<ConstantWQKms> infoldings = new ArrayList<ConstantWQKms>(); boolean [] infoldingColumns = ic.getInfoldingColumns(); double [] kms = null; double [] ws = null; for (int i = 0; i < infoldingColumns.length; ++i) { if (!infoldingColumns[i]) { continue; } if (kms == null) { kms = DoubleUtil.explode(from, to, step); ws = new double[kms.length]; } QRangeTree.QuickQFinder qf = columns[i].getQRangeTree().new QuickQFinder(); int numProblemsBefore = numProblems(); double [] qs = qf.findQs(kms, this); String name = columns[i].getName(); ConstantWQKms infolding = new ConstantWQKms(kms, qs, ws, name); if (numProblems() > numProblemsBefore) { infolding.removeNaNs(); } infoldings.add(infolding); } for (int i = 0; i < infoldings.size(); i++) { String name = infoldings.get(i).getName(); // TODO: i18n if (i == 0) { infoldings.get(i).setName("untere Umh\u00fcllende " + name); } else if (i == infoldings.size() - 1) { infoldings.get(i).setName("obere Umh\u00fcllende " + name); } else { infoldings.get(i).setName("geschnitten " + name); } } return infoldings.toArray(new ConstantWQKms[infoldings.size()]); } // TODO: issue1109/2, merge with FixRealizingCalculation protected String createName(int index) { // TODO: i18n StringBuilder sb = new StringBuilder(isQ ? "Q" : "W"); sb.append(" benutzerdefiniert ("); for (int i = 0, N = segments.size(); i < N; ++i) { if (i > 0) { sb.append("; "); } Segment segment = segments.get(i); sb.append((segment.backup != null ? segment.backup : segment.values)[index]); } sb.append(')'); return sb.toString(); } } // vim:set ts=4 sw=4 si et sta sts=4 fenc=utf8 :