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/*
* The JTS Topology Suite is a collection of Java classes that
* implement the fundamental operations required to validate a given
* geo-spatial data set to a known topological specification.
*
* Copyright (C) 2001 Vivid Solutions
*
* This library 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 2.1 of the License, or (at your option) any later version.
*
* This library 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 this library; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
*
* For more information, contact:
*
*     Vivid Solutions
*     Suite #1A
*     2328 Government Street
*     Victoria BC  V8T 5G5
*     Canada
*
*     (250)385-6040
*     www.vividsolutions.com
*/

package com.vividsolutions.jts.operation.predicate;

import java.util.*;

import com.vividsolutions.jts.geom.*;
import com.vividsolutions.jts.algorithm.*;
import com.vividsolutions.jts.algorithm.locate.SimplePointInAreaLocator;
import com.vividsolutions.jts.geom.util.*;

/**
 * Implementation of the intersects spatial predicate
 * optimized for the case where one {@link Geometry} is a rectangle. 
 * This class works for all
 * input geometries, including {@link GeometryCollection}s.
 * 

* As a further optimization, * this class can be used in batch style * to test many geometries * against a single rectangle. * * @version 1.7 */ public class RectangleIntersects { /** * Tests whether a rectangle intersects a given geometry. * * @param rectangle * a rectangular Polygon * @param b * a Geometry of any type * @return true if the geometries intersect */ public static boolean intersects(Polygon rectangle, Geometry b) { RectangleIntersects rp = new RectangleIntersects(rectangle); return rp.intersects(b); } private Polygon rectangle; private Envelope rectEnv; /** * Create a new intersects computer for a rectangle. * * @param rectangle * a rectangular Polygon */ public RectangleIntersects(Polygon rectangle) { this.rectangle = rectangle; rectEnv = rectangle.getEnvelopeInternal(); } /** * Tests whether the given Geometry intersects * the query rectangle. * * @param geom the Geometry to test (may be of any type) * @return true if the geometry intersects the query rectangle */ public boolean intersects(Geometry geom) { if (!rectEnv.intersects(geom.getEnvelopeInternal())) return false; /** * Test if rectangle envelope intersects any component envelope. * This handles Point components as well */ EnvelopeIntersectsVisitor visitor = new EnvelopeIntersectsVisitor(rectEnv); visitor.applyTo(geom); if (visitor.intersects()) return true; /** * Test if any rectangle vertex is contained in the target geometry */ GeometryContainsPointVisitor ecpVisitor = new GeometryContainsPointVisitor(rectangle); ecpVisitor.applyTo(geom); if (ecpVisitor.containsPoint()) return true; /** * Test if any target geometry line segment intersects the rectangle */ RectangleIntersectsSegmentVisitor riVisitor = new RectangleIntersectsSegmentVisitor(rectangle); riVisitor.applyTo(geom); if (riVisitor.intersects()) return true; return false; } } /** * Tests whether it can be concluded that a rectangle intersects a geometry, * based on the relationship of the envelope(s) of the geometry. * * @author Martin Davis * @version 1.7 */ class EnvelopeIntersectsVisitor extends ShortCircuitedGeometryVisitor { private Envelope rectEnv; private boolean intersects = false; public EnvelopeIntersectsVisitor(Envelope rectEnv) { this.rectEnv = rectEnv; } /** * Reports whether it can be concluded that an intersection occurs, * or whether further testing is required. * * @return true if an intersection must occur * or false if no conclusion about intersection can be made */ public boolean intersects() { return intersects; } protected void visit(Geometry element) { Envelope elementEnv = element.getEnvelopeInternal(); // disjoint => no intersection if (!rectEnv.intersects(elementEnv)) { return; } // rectangle contains target env => must intersect if (rectEnv.contains(elementEnv)) { intersects = true; return; } /** * Since the envelopes intersect and the test element is connected, if the * test envelope is completely bisected by an edge of the rectangle the * element and the rectangle must touch (This is basically an application of * the Jordan Curve Theorem). The alternative situation is that the test * envelope is "on a corner" of the rectangle envelope, i.e. is not * completely bisected. In this case it is not possible to make a conclusion * about the presence of an intersection. */ if (elementEnv.getMinX() >= rectEnv.getMinX() && elementEnv.getMaxX() <= rectEnv.getMaxX()) { intersects = true; return; } if (elementEnv.getMinY() >= rectEnv.getMinY() && elementEnv.getMaxY() <= rectEnv.getMaxY()) { intersects = true; return; } } protected boolean isDone() { return intersects == true; } } /** * A visitor which tests whether it can be * concluded that a geometry contains a vertex of * a query geometry. * * @author Martin Davis * @version 1.7 */ class GeometryContainsPointVisitor extends ShortCircuitedGeometryVisitor { private CoordinateSequence rectSeq; private Envelope rectEnv; private boolean containsPoint = false; public GeometryContainsPointVisitor(Polygon rectangle) { this.rectSeq = rectangle.getExteriorRing().getCoordinateSequence(); rectEnv = rectangle.getEnvelopeInternal(); } /** * Reports whether it can be concluded that a corner point of the rectangle is * contained in the geometry, or whether further testing is required. * * @return true if a corner point is contained * or false if no conclusion about intersection can be made */ public boolean containsPoint() { return containsPoint; } protected void visit(Geometry geom) { // if test geometry is not polygonal this check is not needed if (!(geom instanceof Polygon)) return; // skip if envelopes do not intersect Envelope elementEnv = geom.getEnvelopeInternal(); if (!rectEnv.intersects(elementEnv)) return; // test each corner of rectangle for inclusion Coordinate rectPt = new Coordinate(); for (int i = 0; i < 4; i++) { rectSeq.getCoordinate(i, rectPt); if (!elementEnv.contains(rectPt)) continue; // check rect point in poly (rect is known not to touch polygon at this // point) if (SimplePointInAreaLocator.containsPointInPolygon(rectPt, (Polygon) geom)) { containsPoint = true; return; } } } protected boolean isDone() { return containsPoint == true; } } /** * A visitor to test for intersection between the query * rectangle and the line segments of the geometry. * * @author Martin Davis * */ class RectangleIntersectsSegmentVisitor extends ShortCircuitedGeometryVisitor { private Envelope rectEnv; private RectangleLineIntersector rectIntersector; private boolean hasIntersection = false; private Coordinate p0 = new Coordinate(); private Coordinate p1 = new Coordinate(); /** * Creates a visitor for checking rectangle intersection * with segments * * @param rectangle the query rectangle */ public RectangleIntersectsSegmentVisitor(Polygon rectangle) { rectEnv = rectangle.getEnvelopeInternal(); rectIntersector = new RectangleLineIntersector(rectEnv); } /** * Reports whether any segment intersection exists. * * @return true if a segment intersection exists * or false if no segment intersection exists */ public boolean intersects() { return hasIntersection; } protected void visit(Geometry geom) { /** * It may be the case that the rectangle and the * envelope of the geometry component are disjoint, * so it is worth checking this simple condition. */ Envelope elementEnv = geom.getEnvelopeInternal(); if (!rectEnv.intersects(elementEnv)) return; // check segment intersections // get all lines from geometry component // (there may be more than one if it's a multi-ring polygon) List lines = LinearComponentExtracter.getLines(geom); checkIntersectionWithLineStrings(lines); } private void checkIntersectionWithLineStrings(List lines) { for (Iterator i = lines.iterator(); i.hasNext(); ) { LineString testLine = (LineString) i.next(); checkIntersectionWithSegments(testLine); if (hasIntersection) return; } } private void checkIntersectionWithSegments(LineString testLine) { CoordinateSequence seq1 = testLine.getCoordinateSequence(); for (int j = 1; j < seq1.size(); j++) { seq1.getCoordinate(j - 1, p0); seq1.getCoordinate(j, p1); if (rectIntersector.intersects(p0, p1)) { hasIntersection = true; return; } } } protected boolean isDone() { return hasIntersection == true; } }





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