1 <span style="font-size:14px;font-weight: normal;">
2 private static final double EARTH_RADIUS = 6378137;//赤道半径(单位m)
3
4 /**
5 * 转化为弧度(rad)
6 * */
7 private static double rad(double d)
8 {
9 return d * Math.PI / 180.0;
10 }
11
12 /**
13 * 基于余弦定理求两经纬度距离
14 * @param lon1 第一点的精度
15 * @param lat1 第一点的纬度
16 * @param lon2 第二点的精度
17 * @param lat3 第二点的纬度
18 * @return 返回的距离,单位km
19 * */
20 public static double LantitudeLongitudeDist(double lon1, double lat1,double lon2, double lat2) {
21 double radLat1 = rad(lat1);
22 double radLat2 = rad(lat2);
23
24 double radLon1 = rad(lon1);
25 double radLon2 = rad(lon2);
26
27 if (radLat1 < 0)
28 radLat1 = Math.PI / 2 + Math.abs(radLat1);// south
29 if (radLat1 > 0)
30 radLat1 = Math.PI / 2 - Math.abs(radLat1);// north
31 if (radLon1 < 0)
32 radLon1 = Math.PI * 2 - Math.abs(radLon1);// west
33 if (radLat2 < 0)
34 radLat2 = Math.PI / 2 + Math.abs(radLat2);// south
35 if (radLat2 > 0)
36 radLat2 = Math.PI / 2 - Math.abs(radLat2);// north
37 if (radLon2 < 0)
38 radLon2 = Math.PI * 2 - Math.abs(radLon2);// west
39 double x1 = EARTH_RADIUS * Math.cos(radLon1) * Math.sin(radLat1);
40 double y1 = EARTH_RADIUS * Math.sin(radLon1) * Math.sin(radLat1);
41 double z1 = EARTH_RADIUS * Math.cos(radLat1);
42
43 double x2 = EARTH_RADIUS * Math.cos(radLon2) * Math.sin(radLat2);
44 double y2 = EARTH_RADIUS * Math.sin(radLon2) * Math.sin(radLat2);
45 double z2 = EARTH_RADIUS * Math.cos(radLat2);
46
47 double d = Math.sqrt((x1 - x2) * (x1 - x2) + (y1 - y2) * (y1 - y2)+ (z1 - z2) * (z1 - z2));
48 //余弦定理求夹角
49 double theta = Math.acos((EARTH_RADIUS * EARTH_RADIUS + EARTH_RADIUS * EARTH_RADIUS - d * d) / (2 * EARTH_RADIUS * EARTH_RADIUS));
50 double dist = theta * EARTH_RADIUS;
51 return dist;
52 }
53 </span>
