/*- * Copyright 2020 Beuth Hochschule für Technik Berlin, Hochschule für Technik Stuttgart * * This file is part of CityDoctor2. * * CityDoctor2 is free software: you can redistribute it and/or modify * it under the terms of the GNU Lesser General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * CityDoctor2 is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public License * along with CityDoctor2. If not, see . */ package de.hft.stuttgart.citydoctor2.checks.geometry; import java.util.ArrayList; import java.util.Collections; import java.util.List; import java.util.Map; import de.hft.stuttgart.citydoctor2.check.Check; import de.hft.stuttgart.citydoctor2.check.CheckError; import de.hft.stuttgart.citydoctor2.check.CheckId; import de.hft.stuttgart.citydoctor2.check.CheckResult; import de.hft.stuttgart.citydoctor2.check.CheckType; import de.hft.stuttgart.citydoctor2.check.Checkable; import de.hft.stuttgart.citydoctor2.check.ResultStatus; import de.hft.stuttgart.citydoctor2.check.error.EdgeIntersectionError; import de.hft.stuttgart.citydoctor2.check.error.PointTouchesEdgeError; import de.hft.stuttgart.citydoctor2.datastructure.Edge; import de.hft.stuttgart.citydoctor2.datastructure.Geometry; import de.hft.stuttgart.citydoctor2.datastructure.LinearRing; import de.hft.stuttgart.citydoctor2.datastructure.Vertex; import de.hft.stuttgart.citydoctor2.math.DistanceResult; import de.hft.stuttgart.citydoctor2.math.Segment3d; import de.hft.stuttgart.citydoctor2.parser.ParserConfiguration; public class RingSelfIntCheck extends Check { private static final String EPSILON_NAME = "minVertexDistance"; private static final List dependencies; private static final List> applicableToClasses; static { ArrayList deps = new ArrayList<>(); deps.add(CheckId.C_GE_R_TOO_FEW_POINTS); deps.add(CheckId.C_GE_R_NOT_CLOSED); deps.add(CheckId.C_GE_R_DUPLICATE_POINT); dependencies = Collections.unmodifiableList(deps); ArrayList> classes = new ArrayList<>(); classes.add(LinearRing.class); applicableToClasses = Collections.unmodifiableList(classes); } private double epsilon = 0.0001; public RingSelfIntCheck() { super(CheckId.C_GE_R_SELF_INTERSECTION); } @Override public void init(Map parameters, ParserConfiguration config) { String epsilonString = parameters.get(EPSILON_NAME); if (epsilonString == null) { epsilon = 0.0001; } else { epsilon = Double.parseDouble(epsilonString); } } @Override public void check(LinearRing lr) { checkRingJava(lr); } private void checkRingJava(LinearRing lr) { List edges = getEdgesForRing(lr); for (Edge e : edges) { if (checkForPointsTouchingEdge(lr, e)) { return; } } for (int i = 0; i < edges.size() - 1; i++) { Edge e1 = edges.get(i); for (int j = i + 1; j < edges.size(); j++) { Edge e2 = edges.get(j); if (e1.getConnectionPoint(e2) != null) { continue; } Segment3d s1 = new Segment3d(e1.getFrom(), e1.getTo()); Segment3d s2 = new Segment3d(e2.getFrom(), e2.getTo()); DistanceResult dr = s1.getDistanceResult(s2); if (dr.getDistance() < epsilon) { // intersection CheckError err = new EdgeIntersectionError(lr, e1, e2, dr.getPoint1()); CheckResult cr = new CheckResult(this, ResultStatus.ERROR, err); lr.addCheckResult(cr); return; } } } // no errors detected CheckResult cr = new CheckResult(this, ResultStatus.OK, null); lr.addCheckResult(cr); } private boolean checkForPointsTouchingEdge(LinearRing lr, Edge e1) { Segment3d seg = new Segment3d(e1.getFrom(), e1.getTo()); for (Vertex v : lr.getVertices()) { if (v != e1.getFrom() && v != e1.getTo() && seg.getDistance(v) < epsilon) { CheckError err = new PointTouchesEdgeError(lr, e1, v); CheckResult cr = new CheckResult(this, ResultStatus.ERROR, err); lr.addCheckResult(cr); return true; } } return false; } private List getEdgesForRing(LinearRing lr) { List edges = new ArrayList<>(); Geometry geom = lr.getParent().getParent(); for (int i = 0; i < lr.getVertices().size() - 1; i++) { Vertex v1 = lr.getVertices().get(i); Vertex v2 = lr.getVertices().get(i + 1); Edge e = geom.getEdge(v1, v2); if (e == null) { throw new IllegalStateException("Edge between v1=" + v1 + " to v2=" + v2 + " is missing"); } edges.add(e); } return edges; } @Override public List getDependencies() { return dependencies; } @Override public List> getApplicableToClasses() { return applicableToClasses; } @Override public CheckType getType() { return CheckType.GEOMETRY; } @Override public Check createNewInstance() { return new RingSelfIntCheck(); } }