Minmea is a minimalistic GPS parser library written in pure C intended for resource-constrained platforms, especially microcontrollers and other embedded systems.
- 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.
GBS
(Satellite Fault Detection)GGA
(Fix Data)GLL
(Geographic Position: Latitude/Longitude)GSA
(DOP and active satellites)GST
(Pseudorange Noise Statistics)GSV
(Satellites in view)RMC
(Recommended Minimum: position, velocity, time)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
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
.
If your GPS receiver outputs very long sentences, consider increasing MINMEA_MAX_SENTENCE_LENGTH
in your build environment.
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 decimal digits
([+-]DDDMM.MMMM
), which equates to ±20cm (0.0001 minute is 0.0001/60 degrees and one degree
is about 111km) at the equator.
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.
char line[MINMEA_MAX_SENTENCE_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: satellites 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;
}
}
Simply add minmea.[ch]
to your project, #include "minmea.h"
and you're
good to go.
Building and running the tests requires the following:
- CMake
- 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:
mkdir build
cd build
cmake ../
make
make test
- 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.
- Use the GitHub pull request system.
- Make sure to follow to existing style (naming, indentation, etc.)
- Write unit tests for any new functionality you add.
- Be aware you're submitting your work under the repository's license.
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.
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.