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
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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); } } } |
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原文链接:https://blog.csdn.net/staHuri/article/details/83058930