6.4 KiB
minmea, a lightweight GPS NMEA 0183 parser library
Minmea is a minimalistic GPS parser library written in pure C intended for resource-constrained platforms, especially microcontrollers and other embedded systems.
Features
- Written in ISO C99.
- No dynamic memory allocation.
- No floating point usage in the core library.
- Supports both fixed and floating point values.
- One source file and one header - can't get any simpler.
- Tested under Linux, OS X, Windows and embedded ARM GCC.
- Easily extendable to support new sentences.
- Complete with a test suite and static analysis.
Supported sentences
RMC
(Recommended Minimum: position, velocity, time)GGA
(Fix Data)GSA
(DOP and active satellites)GLL
(Geographic Position: Latitude/Longitude)GST
(Pseudorange Noise Statistics)GSV
(Satellites in view)VTG
(Track made good and Ground speed)ZDA
(Time & Date - UTC, day, month, year and local time zone)
Adding support for more sentences is trivial; see minmea.c
source. Good documentation
on NMEA is at https://gpsd.gitlab.io/gpsd/NMEA.html
Compatibility
Minmea runs out-of-the-box under most Unix-compatible systems. Support for non-Unix systems (including native Windows builds under MSVC) is provided via compatibility headers:
- Define
MINMEA_INCLUDE_COMPAT
in the build environment. - Add appropriate compatibility header from under
compat/
directory asminmea_compat.h
.
Fractional number format
Internally, minmea stores fractional numbers as pairs of two integers: {value, scale}
.
For example, a value of "-123.456"
would be parsed as {-123456, 1000}
. As this
format is quite unwieldy, minmea provides the following convenience functions for converting
to either fixed-point or floating-point format:
minmea_rescale({-123456, 1000}, 10) => -1235
minmea_float({-123456, 1000}) => -123.456
The compound type struct minmea_float
uses int_least32_t
internally. Therefore,
the coordinate precision is guaranteed to be at least [+-]DDDMM.MMMMM
(five decimal digits)
or ±2cm LSB at the equator. Note that GPS modules commonly only provide four deciminal digits
([+-]DDDMM.MMMM
), which equates to ±20cm (0.0001 minute is 0.0001/60 degrees and one degree
is about 111km) at the equator.
Coordinate format
NMEA uses the clunky DDMM.MMMM
format which, honestly, is not good in the internet era.
Internally, minmea stores it as a fractional number (see above); for practical uses,
the value should be probably converted to the DD.DDDDD floating point format using the
following function:
minmea_tocoord({-375165, 100}) => -37.860832
The library doesn't perform this conversion automatically for the following reasons:
- The conversion is not reversible.
- It requires floating point support.
- The user might want to perform this conversion later on or retain the original values.
Example
char line[MINMEA_MAX_LENGTH];
while (fgets(line, sizeof(line), stdin) != NULL) {
switch (minmea_sentence_id(line, false)) {
case MINMEA_SENTENCE_RMC: {
struct minmea_sentence_rmc frame;
if (minmea_parse_rmc(&frame, line)) {
printf("$RMC: raw coordinates and speed: (%d/%d,%d/%d) %d/%d\n",
frame.latitude.value, frame.latitude.scale,
frame.longitude.value, frame.longitude.scale,
frame.speed.value, frame.speed.scale);
printf("$RMC fixed-point coordinates and speed scaled to three decimal places: (%d,%d) %d\n",
minmea_rescale(&frame.latitude, 1000),
minmea_rescale(&frame.longitude, 1000),
minmea_rescale(&frame.speed, 1000));
printf("$RMC floating point degree coordinates and speed: (%f,%f) %f\n",
minmea_tocoord(&frame.latitude),
minmea_tocoord(&frame.longitude),
minmea_tofloat(&frame.speed));
}
} break;
case MINMEA_SENTENCE_GGA: {
struct minmea_sentence_gga frame;
if (minmea_parse_gga(&frame, line)) {
printf("$GGA: fix quality: %d\n", frame.fix_quality);
}
} break;
case MINMEA_SENTENCE_GSV: {
struct minmea_sentence_gsv frame;
if (minmea_parse_gsv(&frame, line)) {
printf("$GSV: message %d of %d\n", frame.msg_nr, frame.total_msgs);
printf("$GSV: sattelites in view: %d\n", frame.total_sats);
for (int i = 0; i < 4; i++)
printf("$GSV: sat nr %d, elevation: %d, azimuth: %d, snr: %d dbm\n",
frame.sats[i].nr,
frame.sats[i].elevation,
frame.sats[i].azimuth,
frame.sats[i].snr);
}
} break;
}
}
Integration with your project
Simply add minmea.[ch]
to your project, #include "minmea.h"
and you're
good to go.
Running unit tests
Building and running the tests requires the following:
- Check Framework (https://libcheck.github.io/check/).
- Clang Static Analyzer (https://clang-analyzer.llvm.org/).
If you have both in your $PATH
, running the tests should be as simple as
typing make
.
Limitations
- Only a handful of frames is supported right now.
- There's no support for omitting parts of the library from building. As
a workaround, use the
-ffunction-sections -Wl,--gc-sections
linker flags (or equivalent) to remove the unused functions (parsers) from the final image. - Some systems lack
timegm
. On these systems, the recommended course of action is to build with-Dtimegm=mktime
which will work correctly as long the system runs in the defaultUTC
timezone.
Bugs
There are plenty. Report them on GitHub, or - even better - open a pull request. Please write unit tests for any new functions you add - it's fun!
Licensing
Minmea is open source software; see COPYING
for amusement. Email me if the
license bothers you and I'll happily re-license under anything else under the sun.
Author
Minmea was written by Kosma Moczek <kosma@kosma.pl> and Patryk Szymczak <patryk.szymczak@gmail.com> at Cloud Your Car, with bugs fixed by countless good people.