/* TinyGPS - a small GPS library for Arduino providing basic NMEA parsing Based on work by and "distance_to" and "course_to" courtesy of Maarten Lamers. Suggestion to add satellites(), course_to(), and cardinal(), by Matt Monson. Precision improvements suggested by Wayne Holder. Copyright (C) 2008-2013 Mikal Hart All rights reserved. This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. This library 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 Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this library; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA */ #ifndef TinyGPS_h #define TinyGPS_h #if defined(ARDUINO) && ARDUINO >= 100 #include "Arduino.h" #else #include "WProgram.h" #endif #include #define _GPS_VERSION 13 // software version of this library #define _GPS_MPH_PER_KNOT 1.15077945 #define _GPS_MPS_PER_KNOT 0.51444444 #define _GPS_KMPH_PER_KNOT 1.852 #define _GPS_MILES_PER_METER 0.00062137112 #define _GPS_KM_PER_METER 0.001 // #define _GPS_NO_STATS class TinyGPS { public: enum { GPS_INVALID_AGE = 0xFFFFFFFF, GPS_INVALID_ANGLE = 999999999, GPS_INVALID_ALTITUDE = 999999999, GPS_INVALID_DATE = 0, GPS_INVALID_TIME = 0xFFFFFFFF, GPS_INVALID_SPEED = 999999999, GPS_INVALID_FIX_TIME = 0xFFFFFFFF, GPS_INVALID_SATELLITES = 0xFF, GPS_INVALID_HDOP = 0xFFFFFFFF }; static const float GPS_INVALID_F_ANGLE, GPS_INVALID_F_ALTITUDE, GPS_INVALID_F_SPEED; TinyGPS(); bool encode(char c); // process one character received from GPS TinyGPS &operator << (char c) {encode(c); return *this;} // lat/long in MILLIONTHs of a degree and age of fix in milliseconds // (note: versions 12 and earlier gave lat/long in 100,000ths of a degree. void get_position(long *latitude, long *longitude, unsigned long *fix_age = 0); // date as ddmmyy, time as hhmmsscc, and age in milliseconds void get_datetime(unsigned long *date, unsigned long *time, unsigned long *age = 0); // signed altitude in centimeters (from GPGGA sentence) inline long altitude() { return _altitude; } // course in last full GPRMC sentence in 100th of a degree inline unsigned long course() { return _course; } // speed in last full GPRMC sentence in 100ths of a knot inline unsigned long speed() { return _speed; } // satellites used in last full GPGGA sentence inline unsigned short satellites() { return _numsats; } // horizontal dilution of precision in 100ths inline unsigned long hdop() { return _hdop; } inline char* constellations() { return _constellations; } inline uint32_t* trackedSatellites() { return tracked_sat_rec; } void f_get_position(float *latitude, float *longitude, unsigned long *fix_age = 0); void crack_datetime(int *year, byte *month, byte *day, byte *hour, byte *minute, byte *second, byte *hundredths = 0, unsigned long *fix_age = 0); float f_altitude(); float f_course(); float f_speed_knots(); float f_speed_mph(); float f_speed_mps(); float f_speed_kmph(); static int library_version() { return _GPS_VERSION; } static float distance_between (float lat1, float long1, float lat2, float long2); static float course_to (float lat1, float long1, float lat2, float long2); static const char *cardinal(float course); #ifndef _GPS_NO_STATS void stats(unsigned long *chars, unsigned short *good_sentences, unsigned short *failed_cs); #endif private: enum {_GPS_SENTENCE_GPGGA, _GPS_SENTENCE_GPRMC, _GPS_SENTENCE_GNGNS, _GPS_SENTENCE_GNGSA, _GPS_SENTENCE_GPGSV, _GPS_SENTENCE_GLGSV, _GPS_SENTENCE_OTHER}; // properties unsigned long _time, _new_time; unsigned long _date, _new_date; long _latitude, _new_latitude; long _longitude, _new_longitude; long _altitude, _new_altitude; unsigned long _speed, _new_speed; unsigned long _course, _new_course; unsigned long _hdop, _new_hdop; unsigned short _numsats, _new_numsats; unsigned long _last_time_fix, _new_time_fix; unsigned long _last_position_fix, _new_position_fix; // parsing state variables byte _parity; bool _is_checksum_term; char _term[15]; byte _sentence_type; byte _term_number; byte _term_offset; bool _gps_data_good; struct TrackedSattelites { uint8_t prn; //"pseudo-random noise" sequences, or Gold codes. GPS sats are listed here http://en.wikipedia.org/wiki/List_of_GPS_satellites uint8_t strength; //in dB }; char _constellations[5]; uint8_t _sat_used_count; //format: //bit 0-7: sat ID //bit 8-14: snr (dB), max 99dB //bit 15: used in solution (when tracking) uint32_t tracked_sat_rec[24]; //TODO: externalize array size int _tracked_satellites_index; uint8_t _sat_index; #ifndef _GPS_NO_STATS // statistics unsigned long _encoded_characters; unsigned short _good_sentences; unsigned short _failed_checksum; unsigned short _passed_checksum; #endif // internal utilities int from_hex(char a); unsigned long parse_decimal(); unsigned long parse_degrees(); bool term_complete(); bool gpsisdigit(char c) { return c >= '0' && c <= '9'; } long gpsatol(const char *str); int gpsstrcmp(const char *str1, const char *str2); }; #if !defined(ARDUINO) // Arduino 0012 workaround #undef int #undef char #undef long #undef byte #undef float #undef abs #undef round #endif #endif