// // This file is part of Dire Wolf, an amateur radio packet TNC. // // Copyright (C) 2013, 2014, 2015 John Langner, WB2OSZ // // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation, either version 2 of the License, or // (at your option) any later version. // // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // You should have received a copy of the GNU General Public License // along with this program. If not, see . // /*------------------------------------------------------------------ * * Module: latlong.c * * Purpose: Various functions for dealing with latitude and longitude. * * Description: Originally, these were scattered around in many places. * Over time they might all be gathered into one place * for consistency, reuse, and easier maintenance. * *---------------------------------------------------------------*/ #include #include #include #include #include #include #include #include #include "direwolf.h" #include "latlong.h" #include "textcolor.h" /*------------------------------------------------------------------ * * Name: latitude_to_str * * Purpose: Convert numeric latitude to string for transmission. * * Inputs: dlat - Floating point degrees. * ambiguity - If 1, 2, 3, or 4, blank out that many trailing digits. * * Outputs: slat - String in format ddmm.mm[NS] * * Returns: None * *----------------------------------------------------------------*/ void latitude_to_str (double dlat, int ambiguity, char *slat) { char hemi; /* Hemisphere: N or S */ int ideg; /* whole number of degrees. */ double dmin; /* Minutes after removing degrees. */ char smin[8]; /* Minutes in format mm.mm */ if (dlat < -90.) { text_color_set(DW_COLOR_ERROR); dw_printf ("Latitude is less than -90. Changing to -90.n"); dlat = -90.; } if (dlat > 90.) { text_color_set(DW_COLOR_ERROR); dw_printf ("Latitude is greater than 90. Changing to 90.n"); dlat = 90.; } if (dlat < 0) { dlat = (- dlat); hemi = 'S'; } else { hemi = 'N'; } ideg = (int)dlat; dmin = (dlat - ideg) * 60.; sprintf (smin, "%05.2f", dmin); /* Due to roundoff, 59.9999 could come out as "60.00" */ if (smin[0] == '6') { smin[0] = '0'; ideg++; } sprintf (slat, "%02d%s%c", ideg, smin, hemi); if (ambiguity >= 1) { slat[6] = ' '; if (ambiguity >= 2) { slat[5] = ' '; if (ambiguity >= 3) { slat[3] = ' '; if (ambiguity >= 4) { slat[2] = ' '; } } } } } /* end latitude_to_str */ /*------------------------------------------------------------------ * * Name: longitude_to_str * * Purpose: Convert numeric longitude to string for transmission. * * Inputs: dlong - Floating point degrees. * ambiguity - If 1, 2, 3, or 4, blank out that many trailing digits. * * Outputs: slat - String in format dddmm.mm[NS] * * Returns: None * *----------------------------------------------------------------*/ void longitude_to_str (double dlong, int ambiguity, char *slong) { char hemi; /* Hemisphere: N or S */ int ideg; /* whole number of degrees. */ double dmin; /* Minutes after removing degrees. */ char smin[8]; /* Minutes in format mm.mm */ if (dlong < -180.) { text_color_set(DW_COLOR_ERROR); dw_printf ("Longitude is less than -180. Changing to -180.n"); dlong = -180.; } if (dlong > 180.) { text_color_set(DW_COLOR_ERROR); dw_printf ("Longitude is greater than 180. Changing to 180.n"); dlong = 180.; } if (dlong < 0) { dlong = (- dlong); hemi = 'W'; } else { hemi = 'E'; } ideg = (int)dlong; dmin = (dlong - ideg) * 60.; sprintf (smin, "%05.2f", dmin); /* Due to roundoff, 59.9999 could come out as "60.00" */ if (smin[0] == '6') { smin[0] = '0'; ideg++; } sprintf (slong, "%03d%s%c", ideg, smin, hemi); /* * The spec says position ambiguity in latitude also * applies to longitude automatically. * Blanking longitude digits is not necessary but I do it * because it makes things clearer. */ if (ambiguity >= 1) { slong[7] = ' '; if (ambiguity >= 2) { slong[6] = ' '; if (ambiguity >= 3) { slong[4] = ' '; if (ambiguity >= 4) { slong[3] = ' '; } } } } } /* end longitude_to_str */ /*------------------------------------------------------------------ * * Name: latitude_to_comp_str * * Purpose: Convert numeric latitude to compressed string for transmission. * * Inputs: dlat - Floating point degrees. * * Outputs: slat - String in format yyyy. * *----------------------------------------------------------------*/ void latitude_to_comp_str (double dlat, char *clat) { int y, y0, y1, y2, y3; if (dlat < -90.) { text_color_set(DW_COLOR_ERROR); dw_printf ("Latitude is less than -90. Changing to -90.n"); dlat = -90.; } if (dlat > 90.) { text_color_set(DW_COLOR_ERROR); dw_printf ("Latitude is greater than 90. Changing to 90.n"); dlat = 90.; } y = (int)round(380926. * (90. - dlat)); y0 = y / (91*91*91); y -= y0 * (91*91*91); y1 = y / (91*91); y -= y1 * (91*91); y2 = y / (91); y -= y2 * (91); y3 = y; clat[0] = y0 + 33; clat[1] = y1 + 33; clat[2] = y2 + 33; clat[3] = y3 + 33; } /*------------------------------------------------------------------ * * Name: longitude_to_comp_str * * Purpose: Convert numeric longitude to compressed string for transmission. * * Inputs: dlong - Floating point degrees. * * Outputs: slat - String in format xxxx. * *----------------------------------------------------------------*/ void longitude_to_comp_str (double dlong, char *clon) { int x, x0, x1, x2, x3; if (dlong < -180.) { text_color_set(DW_COLOR_ERROR); dw_printf ("Longitude is less than -180. Changing to -180.n"); dlong = -180.; } if (dlong > 180.) { text_color_set(DW_COLOR_ERROR); dw_printf ("Longitude is greater than 180. Changing to 180.n"); dlong = 180.; } x = (int)round(190463. * (180. + dlong)); x0 = x / (91*91*91); x -= x0 * (91*91*91); x1 = x / (91*91); x -= x1 * (91*91); x2 = x / (91); x -= x2 * (91); x3 = x; clon[0] = x0 + 33; clon[1] = x1 + 33; clon[2] = x2 + 33; clon[3] = x3 + 33; } /*------------------------------------------------------------------ * * Name: latitude_to_nmea * * Purpose: Convert numeric latitude to strings for NMEA sentence. * * Inputs: dlat - Floating point degrees. * * Outputs: slat - String in format ddmm.mmmm * hemi - Hemisphere or empty string. * * Returns: None * *----------------------------------------------------------------*/ void latitude_to_nmea (double dlat, char *slat, char *hemi) { int ideg; /* whole number of degrees. */ double dmin; /* Minutes after removing degrees. */ char smin[10]; /* Minutes in format mm.mmmm */ if (dlat == G_UNKNOWN) { strcpy (slat, ""); strcpy (hemi, ""); return; } if (dlat < -90.) { text_color_set(DW_COLOR_ERROR); dw_printf ("Latitude is less than -90. Changing to -90.n"); dlat = -90.; } if (dlat > 90.) { text_color_set(DW_COLOR_ERROR); dw_printf ("Latitude is greater than 90. Changing to 90.n"); dlat = 90.; } if (dlat < 0) { dlat = (- dlat); strcpy (hemi, "S"); } else { strcpy (hemi, "N"); } ideg = (int)dlat; dmin = (dlat - ideg) * 60.; sprintf (smin, "%07.4f", dmin); /* Due to roundoff, 59.99999 could come out as "60.0000" */ if (smin[0] == '6') { smin[0] = '0'; ideg++; } sprintf (slat, "%02d%s", ideg, smin); } /* end latitude_to_str */ /*------------------------------------------------------------------ * * Name: longitude_to_nmea * * Purpose: Convert numeric longitude to strings for NMEA sentence. * * Inputs: dlong - Floating point degrees. * * Outputs: slong - String in format dddmm.mmmm * hemi - Hemisphere or empty string. * * Returns: None * *----------------------------------------------------------------*/ void longitude_to_nmea (double dlong, char *slong, char *hemi) { int ideg; /* whole number of degrees. */ double dmin; /* Minutes after removing degrees. */ char smin[10]; /* Minutes in format mm.mmmm */ if (dlong == G_UNKNOWN) { strcpy (slong, ""); strcpy (hemi, ""); return; } if (dlong < -180.) { text_color_set(DW_COLOR_ERROR); dw_printf ("longitude is less than -180. Changing to -180.n"); dlong = -180.; } if (dlong > 180.) { text_color_set(DW_COLOR_ERROR); dw_printf ("longitude is greater than 180. Changing to 180.n"); dlong = 180.; } if (dlong < 0) { dlong = (- dlong); strcpy (hemi, "W"); } else { strcpy (hemi, "E"); } ideg = (int)dlong; dmin = (dlong - ideg) * 60.; sprintf (smin, "%07.4f", dmin); /* Due to roundoff, 59.99999 could come out as "60.0000" */ if (smin[0] == '6') { smin[0] = '0'; ideg++; } sprintf (slong, "%03d%s", ideg, smin); } /* end longitude_to_nmea */ /*------------------------------------------------------------------ * * Function: latitude_from_nmea * * Purpose: Convert NMEA latitude encoding to degrees. * * Inputs: pstr - Pointer to numeric string. * phemi - Pointer to following field. Should be N or S. * * Returns: Double precision value in degrees. Negative for South. * * Description: Latitude field has * 2 digits for degrees * 2 digits for minutes * period * Variable number of fractional digits for minutes. * I've seen 2, 3, and 4 fractional digits. * * * Bugs: Very little validation of data. * * Errors: Return constant G_UNKNOWN for any type of error. * Could we use special "NaN" code? * *------------------------------------------------------------------*/ double latitude_from_nmea (char *pstr, char *phemi) { double lat; if ( ! isdigit((unsigned char)(pstr[0]))) return (G_UNKNOWN); if (pstr[4] != '.') return (G_UNKNOWN); lat = (pstr[0] - '0') * 10 + (pstr[1] - '0') + atof(pstr+2) / 60.0; if (lat < 0 || lat > 90) { text_color_set(DW_COLOR_ERROR); dw_printf("Error: Latitude not in range of 0 to 90.\n"); } // Saw this one time: // $GPRMC,000000,V,0000.0000,0,00000.0000,0,000,000,000000,,*01 // If location is unknown, I think the hemisphere should be // an empty string. TODO: Check on this. // 'V' means void, so sentence should be discarded rather than // trying to extract any data from it. if (*phemi != 'N' && *phemi != 'S' && *phemi != '\0') { text_color_set(DW_COLOR_ERROR); dw_printf("Error: Latitude hemisphere should be N or S.\n"); } if (*phemi == 'S') lat = ( - lat); return (lat); } /*------------------------------------------------------------------ * * Function: longitude_from_nmea * * Purpose: Convert NMEA longitude encoding to degrees. * * Inputs: pstr - Pointer to numeric string. * phemi - Pointer to following field. Should be E or W. * * Returns: Double precision value in degrees. Negative for West. * * Description: Longitude field has * 3 digits for degrees * 2 digits for minutes * period * Variable number of fractional digits for minutes * * * Bugs: Very little validation of data. * * Errors: Return constant G_UNKNOWN for any type of error. * Could we use special "NaN" code? * *------------------------------------------------------------------*/ double longitude_from_nmea (char *pstr, char *phemi) { double lon; if ( ! isdigit((unsigned char)(pstr[0]))) return (G_UNKNOWN); if (pstr[5] != '.') return (G_UNKNOWN); lon = (pstr[0] - '0') * 100 + (pstr[1] - '0') * 10 + (pstr[2] - '0') + atof(pstr+3) / 60.0; if (lon < 0 || lon > 180) { text_color_set(DW_COLOR_ERROR); dw_printf("Error: Longitude not in range of 0 to 180.\n"); } if (*phemi != 'E' && *phemi != 'W' && *phemi != '\0') { text_color_set(DW_COLOR_ERROR); dw_printf("Error: Longitude hemisphere should be E or W.\n"); } if (*phemi == 'W') lon = ( - lon); return (lon); } /*------------------------------------------------------------------ * * Function: ll_distance_km * * Purpose: Calculate distance between two locations. * * Inputs: lat1, lon1 - One location, in degrees. * lat2, lon2 - other location * * Returns: Distance in km. * * Description: The Ubiquitous Haversine formula. * *------------------------------------------------------------------*/ #define R 6371 double ll_distance_km (double lat1, double lon1, double lat2, double lon2) { double a; lat1 *= M_PI / 180; lon1 *= M_PI / 180; lat2 *= M_PI / 180; lon2 *= M_PI / 180; a = pow(sin((lat2-lat1)/2),2) + cos(lat1) * cos(lat2) * pow(sin((lon2-lon1)/2),2); return (R * 2 *atan2(sqrt(a), sqrt(1-a))); } /*------------------------------------------------------------------ * * Function: ll_from_grid_square * * Purpose: Convert Maidenhead locator to latitude and longitude. * * Inputs: maidenhead - 2, 4, 6, or 8 character grid square locator. * * Outputs: dlat, dlon - Latitude and longitude. * Original values unchanged if error. * * Returns: 1 for success, 0 if error. * * Bug: This does not check for invalid values. * * Reference: A good converter for spot checking: * http://home.arcor.de/waldemar.kebsch/The_Makrothen_Contest/fmaidenhead.html * * Rambling: What sort of resolution does this provide? * For 8 character form, each latitude unit is 0.25 minute. * (Longitude can be up to twice that around the equator.) * 6371 km * 2 * pi * 0.25 / 60 / 360 = 0.463 km. Is that right? * * Using this calculator, http://www.earthpoint.us/Convert.aspx * * FN42MA00 --> 19T 334361mE 4651711mN * FN42MA11 --> 19T 335062mE 4652157mN * ------ ------- * 701 446 meters difference. * *------------------------------------------------------------------*/ int ll_from_grid_square (char *maidenhead, double *dlat, double *dlon) { double lat, lon; char mh[16]; if (strlen(maidenhead) != 2 && strlen(maidenhead) != 4 && strlen(maidenhead) != 6 && strlen(maidenhead) != 8) { text_color_set(DW_COLOR_ERROR); dw_printf("Maidenhead locator \"%s\" must 2, 4, 6, or 8 characters.\n", maidenhead); return (0); } strcpy (mh, maidenhead); if (islower(mh[0])) mh[0] = toupper(mh[0]); if (islower(mh[1])) mh[1] = toupper(mh[1]); if (mh[0] < 'A' || mh[0] > 'R' || mh[1] < 'A' || mh[1] > 'R') { text_color_set(DW_COLOR_ERROR); dw_printf("The first pair of characters in Maidenhead locator \"%s\" must be in range of A thru R.\n", maidenhead); return (0); } /* Lon: 360 deg / 18 squares = 20 deg / square */ /* Lat: 180 deg / 18 squares = 10 deg / square */ lon = (mh[0] - 'A') * 20 - 180; lat = (mh[1] - 'A') * 10 - 90; if (strlen(mh) >= 4) { if ( ! isdigit(mh[2]) || ! isdigit(mh[3]) ) { text_color_set(DW_COLOR_ERROR); dw_printf("The second pair of characters in Maidenhead locator \"%s\" must be digits.\n", maidenhead); return (0); } /* Lon: 20 deg / 10 squares = 2 deg / square */ /* Lat: 10 deg / 10 squares = 1 deg / square */ lon += (mh[2] - '0') * 2; lat += (mh[3] - '0'); if (strlen(mh) >=6) { if (islower(mh[4])) mh[4] = toupper(mh[4]); if (islower(mh[5])) mh[5] = toupper(mh[5]); if (mh[4] < 'A' || mh[4] > 'X' || mh[5] < 'A' || mh[5] > 'X') { text_color_set(DW_COLOR_ERROR); dw_printf("The third pair of characters in Maidenhead locator \"%s\" must be in range of A thru X.\n", maidenhead); return (0); } /* Lon: 2 deg / 24 squares = 5 minutes / square */ /* Lat: 1 deg / 24 squares = 2.5 minutes / square */ lon += (mh[4] - 'A') * 5.0 / 60.0; lat += (mh[5] - 'A') * 2.5 / 60.0; if (strlen(mh) >= 8) { if ( ! isdigit(mh[6]) || ! isdigit(mh[7]) ) { text_color_set(DW_COLOR_ERROR); dw_printf("The fourth pair of characters in Maidenhead locator \"%s\" must be digits.\n", maidenhead); return (0); } /* Lon: 5 min / 10 squares = 0.5 minutes / square */ /* Lat: 2.5 min / 10 squares = 0.25 minutes / square */ lon += (mh[6] - '0') * 0.50 / 60.0; lat += (mh[7] - '0') * 0.25 / 60.0; lon += 0.250 / 60.0; /* Move from corner to center of square */ lat += 0.125 / 60.0; } else { lon += 2.5 / 60.0; /* Move from corner to center of square */ lat += 1.25 / 60.0; } } else { lon += 1.0; /* Move from corner to center of square */ lat += 0.5; } } else { lon += 10; /* Move from corner to center of square */ lat += 5; } //text_color_set(DW_COLOR_DEBUG); //dw_printf("DEBUG: Maidenhead conversion \"%s\" -> %.6f %.6f\n", maidenhead, lat, lon); *dlat = lat; *dlon = lon; return (1); } /* end ll_from_grid_square */ /* end latlong.c */