1 | // Part of BNC, a utility for retrieving decoding and
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2 | // converting GNSS data streams from NTRIP broadcasters.
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3 | //
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4 | // Copyright (C) 2007
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5 | // German Federal Agency for Cartography and Geodesy (BKG)
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6 | // http://www.bkg.bund.de
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7 | // Czech Technical University Prague, Department of Geodesy
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8 | // http://www.fsv.cvut.cz
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9 | //
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10 | // Email: euref-ip@bkg.bund.de
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11 | //
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12 | // This program is free software; you can redistribute it and/or
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13 | // modify it under the terms of the GNU General Public License
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14 | // as published by the Free Software Foundation, version 2.
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15 | //
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16 | // This program is distributed in the hope that it will be useful,
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17 | // but WITHOUT ANY WARRANTY; without even the implied warranty of
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18 | // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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19 | // GNU General Public License for more details.
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20 | //
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21 | // You should have received a copy of the GNU General Public License
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22 | // along with this program; if not, write to the Free Software
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23 | // Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
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24 |
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25 | /* -------------------------------------------------------------------------
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26 | * BKG NTRIP Client
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27 | * -------------------------------------------------------------------------
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28 | *
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29 | * Class: bncutils
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30 | *
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31 | * Purpose: Auxiliary Functions
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32 | *
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33 | * Author: L. Mervart
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34 | *
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35 | * Created: 30-Aug-2006
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36 | *
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37 | * Changes:
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38 | *
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39 | * -----------------------------------------------------------------------*/
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40 |
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41 | #include <iostream>
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42 | #include <ctime>
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43 | #include <math.h>
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44 |
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45 | #include <QRegExp>
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46 | #include <QStringList>
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47 | #include <QDateTime>
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48 |
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49 | #include "bncutils.h"
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50 | #include "bncapp.h"
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51 |
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52 | using namespace std;
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53 |
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54 | //
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55 | ////////////////////////////////////////////////////////////////////////////
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56 | void expandEnvVar(QString& str) {
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57 |
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58 | QRegExp rx("(\\$\\{.+\\})");
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59 |
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60 | if (rx.indexIn(str) != -1) {
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61 | QStringListIterator it(rx.capturedTexts());
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62 | if (it.hasNext()) {
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63 | QString rxStr = it.next();
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64 | QString envVar = rxStr.mid(2,rxStr.length()-3);
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65 | str.replace(rxStr, qgetenv(envVar.toAscii()));
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66 | }
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67 | }
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68 |
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69 | }
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70 |
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71 | //
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72 | ////////////////////////////////////////////////////////////////////////////
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73 | QDateTime dateAndTimeFromGPSweek(int GPSWeek, double GPSWeeks) {
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74 |
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75 | static const QDate zeroEpoch(1980, 1, 6);
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76 |
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77 | QDate date(zeroEpoch);
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78 | QTime time(0,0,0,0);
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79 |
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80 | int weekDays = int(GPSWeeks) / 86400;
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81 | date = date.addDays( GPSWeek * 7 + weekDays );
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82 | time = time.addMSecs( int( (GPSWeeks - 86400 * weekDays) * 1e3 ) );
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83 |
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84 | return QDateTime(date,time);
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85 | }
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86 |
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87 | //
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88 | ////////////////////////////////////////////////////////////////////////////
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89 | void currentGPSWeeks(int& week, double& sec) {
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90 |
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91 | QDateTime currDateTimeGPS;
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92 |
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93 | if ( ((bncApp*) qApp)->_currentDateAndTimeGPS ) {
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94 | currDateTimeGPS = *(((bncApp*) qApp)->_currentDateAndTimeGPS);
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95 | }
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96 | else {
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97 | currDateTimeGPS = QDateTime::currentDateTime().toUTC();
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98 | QDate hlp = currDateTimeGPS.date();
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99 | currDateTimeGPS = currDateTimeGPS.addSecs(gnumleap(hlp.year(),
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100 | hlp.month(), hlp.day()));
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101 | }
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102 |
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103 | QDate currDateGPS = currDateTimeGPS.date();
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104 | QTime currTimeGPS = currDateTimeGPS.time();
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105 |
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106 | week = int( (double(currDateGPS.toJulianDay()) - 2444244.5) / 7 );
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107 |
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108 | sec = (currDateGPS.dayOfWeek() % 7) * 24.0 * 3600.0 +
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109 | currTimeGPS.hour() * 3600.0 +
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110 | currTimeGPS.minute() * 60.0 +
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111 | currTimeGPS.second() +
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112 | currTimeGPS.msec() / 1000.0;
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113 | }
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114 |
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115 | //
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116 | ////////////////////////////////////////////////////////////////////////////
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117 | QDateTime currentDateAndTimeGPS() {
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118 | int GPSWeek;
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119 | double GPSWeeks;
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120 | currentGPSWeeks(GPSWeek, GPSWeeks);
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121 | return dateAndTimeFromGPSweek(GPSWeek, GPSWeeks);
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122 | }
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123 |
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124 | //
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125 | ////////////////////////////////////////////////////////////////////////////
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126 | QByteArray ggaString(const QByteArray& latitude,
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127 | const QByteArray& longitude,
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128 | const QByteArray& height) {
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129 |
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130 | double lat = strtod(latitude,NULL);
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131 | double lon = strtod(longitude,NULL);
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132 | double hei = strtod(height,NULL);
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133 |
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134 | const char* flagN="N";
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135 | const char* flagE="E";
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136 | if (lon >180.) {lon=(lon-360.)*(-1.); flagE="W";}
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137 | if ((lon < 0.) && (lon >= -180.)) {lon=lon*(-1.); flagE="W";}
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138 | if (lon < -180.) {lon=(lon+360.); flagE="E";}
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139 | if (lat < 0.) {lat=lat*(-1.); flagN="S";}
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140 | QTime ttime(QDateTime::currentDateTime().toUTC().time());
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141 | int lat_deg = (int)lat;
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142 | double lat_min=(lat-lat_deg)*60.;
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143 | int lon_deg = (int)lon;
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144 | double lon_min=(lon-lon_deg)*60.;
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145 | int hh = 0 , mm = 0;
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146 | double ss = 0.0;
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147 | hh=ttime.hour();
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148 | mm=ttime.minute();
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149 | ss=(double)ttime.second()+0.001*ttime.msec();
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150 | QString gga;
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151 | gga += "GPGGA,";
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152 | gga += QString("%1%2%3,").arg((int)hh, 2, 10, QLatin1Char('0')).arg((int)mm, 2, 10, QLatin1Char('0')).arg((int)ss, 2, 10, QLatin1Char('0'));
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153 | gga += QString("%1%2,").arg((int)lat_deg,2, 10, QLatin1Char('0')).arg(lat_min, 7, 'f', 4, QLatin1Char('0'));
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154 | gga += flagN;
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155 | gga += QString(",%1%2,").arg((int)lon_deg,3, 10, QLatin1Char('0')).arg(lon_min, 7, 'f', 4, QLatin1Char('0'));
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156 | gga += flagE + QString(",1,05,1.00");
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157 | gga += QString(",%1,").arg(hei, 2, 'f', 1);
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158 | gga += QString("M,10.000,M,,");
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159 | int xori;
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160 | char XOR = 0;
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161 | char *Buff =gga.toAscii().data();
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162 | int iLen = strlen(Buff);
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163 | for (xori = 0; xori < iLen; xori++) {
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164 | XOR ^= (char)Buff[xori];
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165 | }
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166 | gga = "$" + gga + QString("*%1").arg(XOR, 2, 16, QLatin1Char('0'));
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167 |
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168 | return gga.toAscii();
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169 | }
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170 |
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171 | //
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172 | ////////////////////////////////////////////////////////////////////////////
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173 | void RSW_to_XYZ(const ColumnVector& rr, const ColumnVector& vv,
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174 | const ColumnVector& rsw, ColumnVector& xyz) {
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175 |
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176 | ColumnVector along = vv / vv.norm_Frobenius();
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177 | ColumnVector cross = crossproduct(rr, vv); cross /= cross.norm_Frobenius();
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178 | ColumnVector radial = crossproduct(along, cross);
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179 |
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180 | Matrix RR(3,3);
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181 | RR.Column(1) = radial;
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182 | RR.Column(2) = along;
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183 | RR.Column(3) = cross;
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184 |
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185 | xyz = RR * rsw;
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186 | }
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187 |
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188 | // Rectangular Coordinates -> Ellipsoidal Coordinates
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189 | ////////////////////////////////////////////////////////////////////////////
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190 | t_irc xyz2ell(const double* XYZ, double* Ell) {
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191 |
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192 | const double bell = t_CST::aell*(1.0-1.0/t_CST::fInv) ;
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193 | const double e2 = (t_CST::aell*t_CST::aell-bell*bell)/(t_CST::aell*t_CST::aell) ;
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194 | const double e2c = (t_CST::aell*t_CST::aell-bell*bell)/(bell*bell) ;
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195 |
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196 | double nn, ss, zps, hOld, phiOld, theta, sin3, cos3;
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197 |
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198 | ss = sqrt(XYZ[0]*XYZ[0]+XYZ[1]*XYZ[1]) ;
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199 | zps = XYZ[2]/ss ;
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200 | theta = atan( (XYZ[2]*t_CST::aell) / (ss*bell) );
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201 | sin3 = sin(theta) * sin(theta) * sin(theta);
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202 | cos3 = cos(theta) * cos(theta) * cos(theta);
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203 |
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204 | // Closed formula
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205 | Ell[0] = atan( (XYZ[2] + e2c * bell * sin3) / (ss - e2 * t_CST::aell * cos3) );
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206 | Ell[1] = atan2(XYZ[1],XYZ[0]) ;
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207 | nn = t_CST::aell/sqrt(1.0-e2*sin(Ell[0])*sin(Ell[0])) ;
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208 | Ell[2] = ss / cos(Ell[0]) - nn;
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209 |
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210 | const int MAXITER = 100;
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211 | for (int ii = 1; ii <= MAXITER; ii++) {
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212 | nn = t_CST::aell/sqrt(1.0-e2*sin(Ell[0])*sin(Ell[0])) ;
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213 | hOld = Ell[2] ;
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214 | phiOld = Ell[0] ;
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215 | Ell[2] = ss/cos(Ell[0])-nn ;
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216 | Ell[0] = atan(zps/(1.0-e2*nn/(nn+Ell[2]))) ;
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217 | if ( fabs(phiOld-Ell[0]) <= 1.0e-11 && fabs(hOld-Ell[2]) <= 1.0e-5 ) {
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218 | return success;
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219 | }
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220 | }
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221 |
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222 | return failure;
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223 | }
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224 |
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225 | // Rectangular Coordinates -> North, East, Up Components
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226 | ////////////////////////////////////////////////////////////////////////////
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227 | void xyz2neu(const double* Ell, const double* xyz, double* neu) {
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228 |
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229 | double sinPhi = sin(Ell[0]);
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230 | double cosPhi = cos(Ell[0]);
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231 | double sinLam = sin(Ell[1]);
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232 | double cosLam = cos(Ell[1]);
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233 |
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234 | neu[0] = - sinPhi*cosLam * xyz[0]
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235 | - sinPhi*sinLam * xyz[1]
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236 | + cosPhi * xyz[2];
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237 |
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238 | neu[1] = - sinLam * xyz[0]
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239 | + cosLam * xyz[1];
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240 |
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241 | neu[2] = + cosPhi*cosLam * xyz[0]
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242 | + cosPhi*sinLam * xyz[1]
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243 | + sinPhi * xyz[2];
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244 | }
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245 |
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246 | // Fourth order Runge-Kutta numerical integrator for ODEs
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247 | ////////////////////////////////////////////////////////////////////////////
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248 | ColumnVector rungeKutta4(
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249 | double xi, // the initial x-value
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250 | const ColumnVector& yi, // vector of the initial y-values
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251 | double dx, // the step size for the integration
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252 | ColumnVector (*der)(double x, const ColumnVector& y)
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253 | // A pointer to a function that computes the
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254 | // derivative of a function at a point (x,y)
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255 | ) {
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256 |
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257 | ColumnVector k1 = der(xi , yi ) * dx;
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258 | ColumnVector k2 = der(xi+dx/2.0, yi+k1/2.0) * dx;
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259 | ColumnVector k3 = der(xi+dx/2.0, yi+k2/2.0) * dx;
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260 | ColumnVector k4 = der(xi+dx , yi+k3 ) * dx;
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261 |
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262 | ColumnVector yf = yi + k1/6.0 + k2/3.0 + k3/3.0 + k4/6.0;
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263 |
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264 | return yf;
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265 | }
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266 |
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