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t.java 3.9 kB

2 years ago
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  1. //正算
  2. public double[] gaussBLtoXY(double longitude,double latitude) {
  3. int ProjNo = 0;
  4. // 带宽
  5. int ZoneWide = 6;
  6. double longitude1, latitude1, longitude0, X0, Y0, xval, yval;
  7. double a, f, e2, ee, NN, T, C, A, M, iPI;
  8. // 3.1415926535898/180.0;
  9. iPI = 0.0174532925199433;
  10. // 54年北京坐标系参数
  11. a = 6378245.0;
  12. f = 1.0 / 298.3;
  13. // 80年西安坐标系参数
  14. // a=6378140.0;
  15. // f=1/298.257;
  16. ProjNo = (int) (longitude / ZoneWide);
  17. longitude0 = ProjNo * ZoneWide + ZoneWide / 2;
  18. longitude0 = longitude0 * iPI;
  19. // 经度转换为弧度
  20. longitude1 = longitude * iPI;
  21. // 纬度转换为弧度
  22. latitude1 = latitude * iPI;
  23. e2 = 2 * f - f * f;
  24. ee = e2 * (1.0 - e2);
  25. NN = a / Math.sqrt(1.0 - e2 * Math.sin(latitude1) * Math.sin(latitude1));
  26. T = Math.tan(latitude1) * Math.tan(latitude1);
  27. C = ee * Math.cos(latitude1) * Math.cos(latitude1);
  28. A = (longitude1 - longitude0) * Math.cos(latitude1);
  29. M = a * ((1 - e2 / 4 - 3 * e2 * e2 / 64 - 5 * e2 * e2 * e2 / 256) * latitude1 - (3 * e2 / 8 + 3 * e2 * e2 / 32 + 45 * e2 * e2 * e2 / 1024) * Math.sin(2 * latitude1) + (15 * e2 * e2 / 256 + 45 * e2 * e2 * e2 / 1024) * Math.sin(4 * latitude1) - (35 * e2 * e2 * e2 / 3072) * Math.sin(6 * latitude1));
  30. xval = NN * (A + (1 - T + C) * A * A * A / 6 + (5 - 18 * T + T * T + 72 * C - 58 * ee) * A * A * A * A * A / 120);
  31. yval = M + NN * Math.tan(latitude1) * (A * A / 2 + (5 - T + 9 * C + 4 * C * C) * A * A * A * A / 24 + (61 - 58 * T + T * T + 600 * C - 330 * ee) * A * A * A * A * A * A / 720);
  32. X0 = 1000000 * (ProjNo + 1) + 500000;
  33. Y0 = 0;
  34. xval = xval + X0;
  35. yval = yval + Y0;
  36. return new double[] { xval, yval };
  37. }
  38. //反算
  39. public double[] gaussXYtoBL(double X,double Y) {
  40. int ProjNo;
  41. int ZoneWide; // //带宽
  42. double[] output = new double[2];
  43. double longitude1, latitude1, longitude0, X0, Y0, xval, yval;// latitude0,
  44. double e1, e2, f, a, ee, NN, T, C, M, D, R, u, fai, iPI;
  45. iPI = 0.0174532925199433; // //3.1415926535898/180.0;
  46. a = 6378245.0; f = 1.0/298.3; //54年北京坐标系参数
  47. //a = 6378140.0;
  48. //f = 1 / 298.257; // 80年西安坐标系参数
  49. // 54年北京坐标系参数
  50. ZoneWide = 6; // //6度带宽
  51. ProjNo = (int) (X / 1000000); // 查找带号
  52. longitude0 = (ProjNo - 1) * ZoneWide + ZoneWide / 2;
  53. longitude0 = longitude0 * iPI; // 中央经线
  54. X0 = ProjNo * 1000000 + 500000;
  55. Y0 = 0;
  56. xval = X - X0;
  57. yval = Y - Y0; // 带内大地坐标
  58. e2 = 2 * f - f * f;
  59. e1 = (1.0 - Math.sqrt(1 - e2)) / (1.0 + Math.sqrt(1 - e2));
  60. ee = e2 / (1 - e2);
  61. M = yval;
  62. u = M / (a * (1 - e2 / 4 - 3 * e2 * e2 / 64 - 5 * e2 * e2 * e2 / 256));
  63. fai = u + (3 * e1 / 2 - 27 * e1 * e1 * e1 / 32) * Math.sin(2 * u) + (21 * e1 * e1 / 16 - 55 * e1 * e1 * e1 * e1 / 32) * Math.sin(4 * u) + (151 * e1 * e1 * e1 / 96) * Math.sin(6 * u) + (1097 * e1 * e1 * e1 * e1 / 512) * Math.sin(8 * u);
  64. C = ee * Math.cos(fai) * Math.cos(fai);
  65. T = Math.tan(fai) * Math.tan(fai);
  66. NN = a / Math.sqrt(1.0 - e2 * Math.sin(fai) * Math.sin(fai));
  67. R = a * (1 - e2) / Math.sqrt((1 - e2 * Math.sin(fai) * Math.sin(fai)) * (1 - e2 * Math.sin(fai) * Math.sin(fai)) * (1 - e2 * Math.sin(fai) * Math.sin(fai)));
  68. D = xval / NN;
  69. // 计算经度(Longitude) 纬度(Latitude)
  70. longitude1 = longitude0 + (D - (1 + 2 * T + C) * D * D * D / 6 + (5 - 2 * C + 28 * T - 3 * C * C + 8 * ee + 24 * T * T) * D * D * D * D * D / 120) / Math.cos(fai);
  71. latitude1 = fai - (NN * Math.tan(fai) / R) * (D * D / 2 - (5 + 3 * T + 10 * C - 4 * C * C - 9 * ee) * D * D * D * D / 24 + (61 + 90 * T + 298 * C + 45 * T * T - 256 * ee - 3 * C * C) * D * D * D * D * D * D / 720);
  72. // 转换为度 DD
  73. output[0] = longitude1 / iPI;
  74. output[1] = latitude1 / iPI;
  75. return output;
  76. }