Mercurial > dive4elements > river
view flys-artifacts/src/main/java/de/intevation/flys/artifacts/math/WKmsOperation.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 | 5642a83420f2 |
| children |
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package de.intevation.flys.artifacts.math; import de.intevation.flys.artifacts.model.WKms; import de.intevation.flys.artifacts.model.WKmsImpl; import java.util.Arrays; public abstract class WKmsOperation { public static final double EPSILON = 1e-6; public static final class KmW implements Comparable<KmW> { protected double km; protected double w; public KmW(double km, double w) { this.km = km; this.w = w; } public int compareTo(KmW other) { return km < other.km ? -1 : km > other.km ? +1 : 0; } public boolean kmEquals(KmW other) { return Math.abs(km - other.km) < EPSILON; } public double subtract(KmW other) { return w - other.w; } } // class KmW public static final WKmsOperation SUBTRACTION = new WKmsOperation() { @Override public WKms operate(WKms a, WKms b) { return subtract(a, b); } }; protected WKmsOperation() { } public abstract WKms operate(WKms a, WKms b); /** * Subtract two series from each other, interpolate values * missing in one series in the other. */ public static WKms subtract(WKms minuend, WKms subtrahend) { int M = minuend .size(); int S = subtrahend.size(); // Don't subtract empty sets if (M < 1 || S < 1) { return new WKmsImpl(); } KmW [] ms = new KmW[M]; KmW [] ss = new KmW[S]; for (int i = 0; i < M; ++i) { ms[i] = new KmW(minuend.getKm(i), minuend.getW(i)); } for (int i = 0; i < S; ++i) { ss[i] = new KmW(subtrahend.getKm(i), subtrahend.getW(i)); } Arrays.sort(ms); Arrays.sort(ss); // no overlap -> empty result set if (ms[0].km > ss[S-1].km || ss[0].km > ms[M-1].km) { return new WKmsImpl(); } WKmsImpl result = new WKmsImpl(); int mi = 0; int si = 0; OUT: while (mi < M && si < S) { KmW m = ms[mi]; KmW s = ss[si]; if (m.km + EPSILON < s.km) { // minuend is before subtrahend while (ms[mi].km + EPSILON < s.km) { if (++mi >= M) { break OUT; } } if (ms[mi].km + EPSILON > s.km) { double mw = Linear.linear( s.km, ms[mi-1].km, ms[mi].km, ms[mi-1].w, ms[mi].w); result.add(s.km, mw - s.w); ++si; } else { // s.km == ms[mi].km result.add(s.km, ms[mi].subtract(s)); ++mi; ++si; } } else if (m.km > s.km + EPSILON) { // subtrahend is before minuend while (m.km > ss[si].km + EPSILON) { if (++si >= S) { break OUT; } } if (ss[si].km + EPSILON > m.km) { double sw = Linear.linear( m.km, ss[si-1].km, ss[si].km, ss[si-1].w, ss[si].w); result.add(m.km, m.w - sw); } else { // ss[si].km == m.km result.add(m.km, m.subtract(ss[si])); ++mi; ++si; } } else { // m.km == s.km result.add(s.km, m.subtract(s)); ++mi; ++si; } } return result; } } // vim:set ts=4 sw=4 si et sta sts=4 fenc=utf-8 :