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/*
 * Copyright (c) 2016 Vivid Solutions.
 *
 * All rights reserved. This program and the accompanying materials
 * are made available under the terms of the Eclipse Public License 2.0
 * and Eclipse Distribution License v. 1.0 which accompanies this distribution.
 * The Eclipse Public License is available at http://www.eclipse.org/legal/epl-v20.html
 * and the Eclipse Distribution License is available at
 *
 * http://www.eclipse.org/org/documents/edl-v10.php.
 */
package com.hazelcast.shaded.org.locationtech.jts.noding;

import java.util.ArrayList;
import java.util.Collection;
import java.util.List;

import com.hazelcast.shaded.org.locationtech.jts.algorithm.LineIntersector;
import com.hazelcast.shaded.org.locationtech.jts.geom.Coordinate;
import com.hazelcast.shaded.org.locationtech.jts.geom.impl.CoordinateArraySequence;
import com.hazelcast.shaded.org.locationtech.jts.io.WKTWriter;

/**
 * Represents a list of contiguous line segments,
 * and supports noding the segments.
 * The line segments are represented by an array of {@link Coordinate}s.
 * Intended to optimize the noding of contiguous segments by
 * reducing the number of allocated objects.
 * {@link SegmentString}s can carry a context object, which is useful
 * for preserving topological or parentage information.
 * All noded substrings are initialized with the same context object.
 * 

* For read-only applications use {@link BasicSegmentString}, * which is (slightly) more lightweight. * * @version 1.7 * @see BasicSegmentString */ public class NodedSegmentString implements NodableSegmentString { /** * Gets the {@link SegmentString}s which result from splitting this string at node points. * * @param segStrings a Collection of NodedSegmentStrings * @return a Collection of NodedSegmentStrings representing the substrings */ public static List getNodedSubstrings(Collection segStrings) { List resultEdgelist = new ArrayList(); getNodedSubstrings(segStrings, resultEdgelist); return resultEdgelist; } /** * Adds the noded {@link SegmentString}s which result from splitting this string at node points. * * @param segStrings a Collection of NodedSegmentStrings * @param resultEdgelist a List which will collect the NodedSegmentStrings representing the substrings */ public static void getNodedSubstrings(Collection segStrings, Collection resultEdgelist) { for (Object segString : segStrings) { NodedSegmentString ss = (NodedSegmentString) segString; ss.getNodeList().addSplitEdges(resultEdgelist); } } private SegmentNodeList nodeList = new SegmentNodeList(this); private Coordinate[] pts; private Object data; /** * Creates a instance from a list of vertices and optional data object. * * @param pts the vertices of the segment string * @param data the user-defined data of this segment string (may be null) */ public NodedSegmentString(Coordinate[] pts, Object data) { this.pts = pts; this.data = data; } /** * Creates a new instance from a {@link SegmentString}. * * @param ss the segment string to use */ public NodedSegmentString(SegmentString ss) { this.pts = ss.getCoordinates(); this.data = ss.getData(); } /** * Gets the user-defined data for this segment string. * * @return the user-defined data */ public Object getData() { return data; } /** * Sets the user-defined data for this segment string. * * @param data an Object containing user-defined data */ public void setData(Object data) { this.data = data; } public SegmentNodeList getNodeList() { return nodeList; } public int size() { return pts.length; } public Coordinate getCoordinate(int i) { return pts[i]; } public Coordinate[] getCoordinates() { return pts; } /** * Gets a list of coordinates with all nodes included. * * @return an array of coordinates include nodes */ public Coordinate[] getNodedCoordinates() { return nodeList.getSplitCoordinates(); } public boolean isClosed() { return pts[0].equals(pts[pts.length - 1]); } /** * Gets the octant of the segment starting at vertex {@code index}. * * @param index the index of the vertex starting the segment. Must not be * the last index in the vertex list * @return the octant of the segment at the vertex */ public int getSegmentOctant(int index) { if (index == pts.length - 1) return -1; return safeOctant(getCoordinate(index), getCoordinate(index + 1)); // return Octant.octant(getCoordinate(index), getCoordinate(index + 1)); } private int safeOctant(Coordinate p0, Coordinate p1) { if (p0.equals2D(p1)) return 0; return Octant.octant(p0, p1); } /** * Adds EdgeIntersections for one or both * intersections found for a segment of an edge to the edge intersection list. */ public void addIntersections(LineIntersector li, int segmentIndex, int geomIndex) { for (int i = 0; i < li.getIntersectionNum(); i++) { addIntersection(li, segmentIndex, geomIndex, i); } } /** * Add an SegmentNode for intersection intIndex. * An intersection that falls exactly on a vertex * of the SegmentString is normalized * to use the higher of the two possible segmentIndexes */ public void addIntersection(LineIntersector li, int segmentIndex, int geomIndex, int intIndex) { Coordinate intPt = new Coordinate(li.getIntersection(intIndex)); addIntersection(intPt, segmentIndex); } /** * Adds an intersection node for a given point and segment to this segment string. * * @param intPt the location of the intersection * @param segmentIndex the index of the segment containing the intersection */ public void addIntersection(Coordinate intPt, int segmentIndex) { addIntersectionNode(intPt, segmentIndex); } /** * Adds an intersection node for a given point and segment to this segment string. * If an intersection already exists for this exact location, the existing * node will be returned. * * @param intPt the location of the intersection * @param segmentIndex the index of the segment containing the intersection * @return the intersection node for the point */ public SegmentNode addIntersectionNode(Coordinate intPt, int segmentIndex) { int normalizedSegmentIndex = segmentIndex; //Debug.println("edge intpt: " + intPt + " dist: " + dist); // normalize the intersection point location int nextSegIndex = normalizedSegmentIndex + 1; if (nextSegIndex < pts.length) { Coordinate nextPt = pts[nextSegIndex]; //Debug.println("next pt: " + nextPt); // Normalize segment index if intPt falls on vertex // The check for point equality is 2D only - Z values are ignored if (intPt.equals2D(nextPt)) { //Debug.println("normalized distance"); normalizedSegmentIndex = nextSegIndex; } } /* Add the intersection point to edge intersection list. */ SegmentNode ei = nodeList.add(intPt, normalizedSegmentIndex); return ei; } public String toString() { return WKTWriter.toLineString(new CoordinateArraySequence(pts)); } }





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