Java多边形重心计算_Java教程

多边形重心计算

三角形重心

顶点为a，b，c的三角形重心为x = (xa + xb + xc) / 3，y = (ya + yb + yc) / 3

多边形重心

x = (x1w1 + x2w2 + … + xnwn)/w
y = (y1w1 + y2w2 + … + ynwn)/w

				?

									import org.locationtech.jts.geom.coordinate;

									import org.locationtech.jts.geom.polygon;

									import org.locationtech.jts.io.parseexception;

									import java.util.*;

									import java.util.stream.collectors;

									/**

									 * <p>title : polygonnodetriangle </p>

									 * <p>description : 多边形自身节点组成三角形</p>

									 * @author huifer

									 * @date 2018/10/15

									 */

									public class polygonnodetriangle {

									  private int num = 3;

									  private set result_p = new hashset();

									  public static void main(string[] args) {

									    //0

									    double[] point1 = new double[]{0, 0};

									    //1

									    double[] point2 = new double[]{10, 0};

									    //2

									    double[] point3 = new double[]{20, 0};

									    //3

									    double[] point4 = new double[]{10, 10};

									    list<double[]> allpoint = new arraylist();

									    allpoint.add(point1);

									    allpoint.add(point3);

									    allpoint.add(point4);

									    polygonnodetriangle polygoncenterpoint = new polygonnodetriangle();

									    // 外围

									    polygon waiwei = polygoncenterpoint.waiwei(point1, point3, point4);

									    // 节点三角形

									    list<polygon> sanjiaoxing = polygoncenterpoint.trianglemothed(allpoint);

									    // 外围内所有三角形

									    list<polygon> rangetriangle = polygoncenterpoint.getrangetriangle(waiwei, sanjiaoxing);

									    // 重心xy

									    double[] gravitycenterxy = polygoncenterpoint.getgravitycenterxy(rangetriangle);

									    system.out.println(rangetriangle.size());

									    system.out.println("================================================");

									    double[] doubles = polygoncenterpoint. polygongravitypoint("polygon((0 0, 20 0, 10 10, 0 0))");

									  }

									  /***

									   * polygon wkt 计算重心

									   * @param wkt

									   * @return

									   */

									  private double[] polygongravitypoint(string wkt) {

									    if (!wkt.startswith("polygon")) {

									      return null;

									    }

									    operation operation = new operation();

									    // 外围数据转 list<double[]>

									    polygon waiwei = null;

									    try {

									      waiwei = operation.createpolygonbywkt(wkt);

									    } catch (parseexception e) {

									      e.printstacktrace();

									    }

									    coordinate[] coordinates = waiwei.getcoordinates();

									    list<double[]> allp = new arraylist<>();

									    arrays.stream(coordinates).foreach(

									        s -> {

									          double nowx = s.x;

									          double nowy = s.y;

									          allp.add(new double[]{nowx, nowy});

									        }

									    );

									    list<polygon> polygons = trianglemothed(allp);

									    list<polygon> rangetriangle1 = getrangetriangle(waiwei, polygons);

									    double area = waiwei.getarea();

									    double[] gravitycenterxy1 = getgravitycenterxy(rangetriangle1);

									    return gravitycenterxy1;

									  }

									  /***

									   * 重心值

									   * @param rangetriangle

									   * @return [x, y]

									   */

									  private double[] getgravitycenterxy(list<polygon> rangetriangle) {

									    double xarea = 0.0;

									    double yarea = 0.0;

									    double aarea = 0.0;

									    for (polygon triangle : rangetriangle) {

									      coordinate[] coordinates = triangle.getcoordinates();

									      double area = triangle.getarea();

									      double[] onegr = trianglecenterofgravity(coordinates[0], coordinates[1], coordinates[2]);

									      xarea += onegr[0] * area;

									      yarea += onegr[1] * area;

									      aarea += area;

									    }

									    system.out.println("重心x " + xarea / aarea);

									    system.out.println("重心y " + yarea / aarea);

									    return new double[]{xarea / aarea, yarea / aarea};

									  }

									  /***

									   * 范围内三角形

									   * @param waiwei

									   * @param sanjiaoxing

									   * @return

									   */

									  private list<polygon> getrangetriangle(polygon waiwei, list<polygon> sanjiaoxing) {

									    list<polygon> triangle = new arraylist<>();

									    // 判断三角形是否在面内

									    for (int i = 0; i < sanjiaoxing.size(); i++) {

									      polygon polygon = sanjiaoxing.get(i);

									      boolean within = polygon.within(waiwei);

									      if (within) {

									        triangle.add(polygon);

									      }

									    }

									    return triangle;

									  }

									  /***

									   * 三角形重心计算

									   * @param a

									   * @param b

									   * @param c

									   * @return

									   */

									  private double[] trianglecenterofgravity(coordinate a, coordinate b, coordinate c) {

									    double gravityx = (a.x + b.x + c.x) / 3;

									    double gravityy = (a.y + b.y + c.y) / 3;

									    double[] result = new double[]{gravityx, gravityy};

									    return result;

									  }

									  /***

									   * 测试用外包图形

									   * @return

									   */

									  private polygon waiwei(double[] point1, double[] point3, double[] point4) {

									    list<double[]> ceshimian = new arraylist();

									    ceshimian.add(point1);

									//    ceshimian.add(point2);

									//    ceshimian.add(point7);

									    ceshimian.add(point4);

									//    ceshimian.add(point6);

									//    ceshimian.add(point5);

									    ceshimian.add(point3);

									    string polygonforlist = createpolygonforlist(ceshimian);

									    operation op = new operation();

									    polygon polygonbywkt = null;

									    try {

									      polygonbywkt = op.createpolygonbywkt(polygonforlist);

									      return polygonbywkt;

									    } catch (parseexception e) {

									      e.printstacktrace();

									    }

									    return null;

									  }

									  /***

									   * 生成所有三角形

									   * @param allpoint

									   * @return

									   */

									  private list<polygon> trianglemothed(list<double[]> allpoint) {

									    // 索引 -> 点坐标

									    map<string, double[]> indexofpoint = new hashmap();

									    for (int i = 0; i < allpoint.size(); i++) {

									      indexofpoint.put(string.valueof(i), allpoint.get(i));

									    }

									    // 排序结果

									    sort((list) indexofpoint.keyset().stream().collect(collectors.tolist()), new hashset());

									    // 删除元素相同后的集合

									    // 所有三角形

									    list<polygon> alltriangle = new arraylist();

									    for (object onedataobj : result_p) {

									      //这一行数据

									      set onedatalist = (set) onedataobj;

									      // 这一行数据的三角形数据

									      list<double[]> trianglepoint = new arraylist();

									      onedatalist.foreach(

									          s -> trianglepoint.add(indexofpoint.get(s)

									          ));

									      polygon triangle = createtriangle(trianglepoint);

									      if (triangle != null) {

									        alltriangle.add(triangle);

									      }

									    }

									    // 所有三角形结束

									    return alltriangle;

									  }

									  /***

									   * 从点坐标集合中创建一个面

									   * @param points

									   * @return

									   */

									  private static string createpolygonforlist(list<double[]> points) {

									    string end = "))";

									    string res = "polygon((";

									    operation op = new operation();

									    for (double[] point : points) {

									      string x = double.tostring(point[0]);

									      string y = double.tostring(point[1]);

									      res += x + " " + y + ", ";

									    }

									    res += double.tostring(points.get(0)[0]) + " " + double.tostring(points.get(0)[1]);

									    res += end;

									    try {

									      op.createpolygonbywkt(res);

									    } catch (parseexception e) {

									      e.printstacktrace();

									    }

									    return res;

									  }

									  /***

									   * 创建三角形

									   * @param trianglepoint

									   * @return polygon

									   */

									  private static polygon createtriangle(list<double[]> trianglepoint) {

									    operation op = new operation();

									    string trianglewkt;

									    boolean istri = istriangle(trianglepoint);

									    if (istri) {

									      trianglewkt = "polygon((" + trianglepoint.get(0)[0] + " " + trianglepoint.get(0)[1] + ", " + trianglepoint.get(1)[0] + " " + trianglepoint.get(1)[1] + ", " + trianglepoint.get(2)[0] + " " + trianglepoint.get(2)[1] + ", " + trianglepoint.get(0)[0] + " " + trianglepoint.get(0)[1] + "))";

									      try {

									        polygon polygonbywkt = op.createpolygonbywkt(trianglewkt);

									        return polygonbywkt;

									//        return trianglewkt;

									      } catch (parseexception e) {

									        e.printstacktrace();

									      }

									    }

									    return null;

									  }

									  /***

									   * 判断三角形

									   * @param trianglepoint

									   * @return

									   */

									  private static boolean istriangle(list<double[]> trianglepoint) {

									    double[] doubles = trianglepoint.get(0);

									    double[] doubles1 = trianglepoint.get(1);

									    double[] doubles2 = trianglepoint.get(2);

									    double len = math.sqrt(math.pow(doubles[0] - doubles1[0], 2) + math.pow(doubles[1] - doubles1[1], 2));

									    double len1 = math.sqrt(math.pow(doubles[0] - doubles2[0], 2) + math.pow(doubles[1] - doubles2[1], 2));

									    double len2 = math.sqrt(math.pow(doubles1[0] - doubles2[0], 2) + math.pow(doubles1[1] - doubles2[1], 2));

									    if ((len + len1 > len2) && (len + len2 > len1) && (len1 + len2 > len)) {

									      return true;

									    }

									    return false;

									  }

									  /***

									   * 不重复排列 (元素不相同)

									   * @param datas

									   * @param target

									   */

									  private void sort(list datas, set target) {

									    if (target.size() == this.num) {

									      this.result_p.add(target);

									      return;

									    }

									    for (int i = 0; i < datas.size(); i++) {

									      list newdatas = new arraylist(datas);

									      set newtarget = new hashset(target);

									      newtarget.add(newdatas.get(i));

									      newdatas.remove(i);

									      sort(newdatas, newtarget);

									    }

									  }

									}