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/*
* gpsdclient.c -- support functions for GPSD clients
*
* This file is Copyright (c) 2010-2018 by the GPSD project
* SPDX-License-Identifier: BSD-2-clause
*/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <strings.h> /* for strcasecmp() */
#include <math.h>
#include <assert.h>
#include "gpsd_config.h"
#include "gps.h"
#include "gpsdclient.h"
#include "os_compat.h"
static struct exportmethod_t exportmethods[] = {
#if defined(DBUS_EXPORT_ENABLE)
{"dbus", GPSD_DBUS_EXPORT, "DBUS broadcast"},
#endif /* defined(DBUS_EXPORT_ENABLE) */
#ifdef SHM_EXPORT_ENABLE
{"shm", GPSD_SHARED_MEMORY, "shared memory"},
#endif /* SOCKET_EXPORT_ENABLE */
#ifdef SOCKET_EXPORT_ENABLE
{"sockets", NULL, "JSON via sockets"},
#endif /* SOCKET_EXPORT_ENABLE */
};
/* convert value of double degrees to a buffer.
* add suffix_pos or suffix_neg depending on sign.
* buffer should be at least 20 bytes.
* Return a pointer to the buffer.
*
* deg_str_type:
* deg_dd : return DD.ddddddd[suffix]
* deg_ddmm : return DD MM.mmmmmm'[suffix]
* deg_ddmmss : return DD MM' SS.sssss"[suffix]
*
* returns 'n/a' for 360 < f or -360 > f
*
* NOTE: 360.0 is rolled over to 0.0
*
* for cm level accuracy, at sea level, we need degrees
* to 7+ decimal places
* Ref: https://en.wikipedia.org/wiki/Decimal_degrees
*
*/
char *deg_to_str2(enum deg_str_type type, double f,
char *buf, unsigned int buf_size,
const char *suffix_pos, const char *suffix_neg)
{
int dsec, sec, deg, min;
double fdsec, fsec, fdeg, fmin;
const char *suffix = "";
if (20 > buf_size) {
(void)strlcpy(buf, "Err", buf_size);
return buf;
}
if (!isfinite(f) || 360.0 < fabs(f)) {
(void)strlcpy(buf, "n/a", buf_size);
return buf;
}
/* suffix? */
if (0.0 > f) {
f = -f;
if (NULL != suffix_neg) {
suffix = suffix_neg;
}
} else if (NULL != suffix_pos) {
suffix = suffix_pos;
}
/* add rounding quanta */
/* IEEE 754 wants round to nearest even.
* We cheat and just round to nearest.
* Intel trying to kill off round to nearest even. */
switch (type) {
default:
/* huh? */
type = deg_dd;
/* FALLTHROUGH */
case deg_dd:
/* DD.dddddddd */
f += 0.5 * 1e-8; /* round up */
break;
case deg_ddmm:
/* DD MM.mmmmmm */
f += (0.5 * 1e-6) / 60; /* round up */
break;
case deg_ddmmss:
f += (0.5 * 1e-5) / 3600; /* round up */
break;
}
fmin = modf(f, &fdeg);
deg = (int)fdeg;
if (360 == deg) {
/* fix round-up roll-over */
deg = 0;
fmin = 0.0;
}
if (deg_dd == type) {
/* DD.dddddddd */
long frac_deg = (long)(fmin * 100000000.0);
/* cm level accuracy requires the %08ld */
(void)snprintf(buf, buf_size, "%3d.%08ld%s", deg, frac_deg, suffix);
return buf;
}
fsec = modf(fmin * 60, &fmin);
min = (int)fmin;
if (deg_ddmm == type) {
/* DD MM.mmmmmm */
sec = (int)(fsec * 1000000.0);
(void)snprintf(buf, buf_size, "%3d %02d.%06d'%s", deg, min, sec,
suffix);
return buf;
}
/* else DD MM SS.sss */
fdsec = modf(fsec * 60.0, &fsec);
sec = (int)fsec;
dsec = (int)(fdsec * 100000.0);
(void)snprintf(buf, buf_size, "%3d %02d' %02d.%05d\"%s", deg, min, sec,
dsec, suffix);
return buf;
}
/* convert absolute value of double degrees to a static string.
* Return a pointer to the static string.
* WARNING: Not thread safe.
*
* deg_str_type:
* deg_dd : return DD.ddddddd
* deg_ddmm : return DD MM.mmmmmm'
* deg_ddmmss : return DD MM' SS.sssss"
*
* returns 'n/a' for 360 < f
*
* NOTE: 360.0 is rolled over to 0.0
*
* for cm level accuracy, at sea level, we need degrees
* to 7+ decimal places
* Ref: https://en.wikipedia.org/wiki/Decimal_degrees
*
*/
char *deg_to_str(enum deg_str_type type, double f)
{
static char buf[20];
return deg_to_str2(type, f, buf, sizeof(buf), "", "");
}
/*
* check the environment to determine proper GPS units
*
* clients should only call this if no user preference is specified on
* the command line or via X resources.
*
* return imperial - Use miles/feet
* nautical - Use knots/feet
* metric - Use km/meters
* unspecified - use compiled default
*
* In order check these environment vars:
* GPSD_UNITS one of:
* imperial = miles/feet
* nautical = knots/feet
* metric = km/meters
* LC_MEASUREMENT
* en_US = miles/feet
* C = miles/feet
* POSIX = miles/feet
* [other] = km/meters
* LANG
* en_US = miles/feet
* C = miles/feet
* POSIX = miles/feet
* [other] = km/meters
*
* if none found then return compiled in default
*/
enum unit gpsd_units(void)
{
char *envu = NULL;
if ((envu = getenv("GPSD_UNITS")) != NULL && *envu != '\0') {
if (0 == strcasecmp(envu, "imperial")) {
return imperial;
}
if (0 == strcasecmp(envu, "nautical")) {
return nautical;
}
if (0 == strcasecmp(envu, "metric")) {
return metric;
}
/* unrecognized, ignore it */
}
if (((envu = getenv("LC_MEASUREMENT")) != NULL && *envu != '\0')
|| ((envu = getenv("LANG")) != NULL && *envu != '\0')) {
if (strncasecmp(envu, "en_US", 5) == 0
|| strcasecmp(envu, "C") == 0 || strcasecmp(envu, "POSIX") == 0) {
return imperial;
}
/* Other, must be metric */
return metric;
}
/* TODO: allow a compile time default here */
return unspecified;
}
void gpsd_source_spec(const char *arg, struct fixsource_t *source)
/* standard parsing of a GPS data source spec */
{
/* the casts attempt to head off a -Wwrite-strings warning */
source->server = (char *)"localhost";
source->port = (char *)DEFAULT_GPSD_PORT;
source->device = NULL;
if (arg != NULL) {
char *colon1, *skipto, *rbrk;
source->spec = (char *)arg;
assert(source->spec != NULL);
skipto = source->spec;
if (*skipto == '[' && (rbrk = strchr(skipto, ']')) != NULL) {
skipto = rbrk;
}
colon1 = strchr(skipto, ':');
if (colon1 != NULL) {
char *colon2;
*colon1 = '\0';
if (colon1 != source->spec) {
source->server = source->spec;
}
source->port = colon1 + 1;
colon2 = strchr(source->port, ':');
if (colon2 != NULL) {
*colon2 = '\0';
source->device = colon2 + 1;
}
} else if (strchr(source->spec, '/') != NULL) {
source->device = source->spec;
} else {
source->server = source->spec;
}
}
if (*source->server == '[') {
char *rbrk = strchr(source->server, ']');
++source->server;
if (rbrk != NULL)
*rbrk = '\0';
}
}
char *maidenhead(double n, double e)
/* lat/lon to Maidenhead */
{
/*
* Specification at
* http://en.wikipedia.org/wiki/Maidenhead_Locator_System
*
* There's a fair amount of slop in how Maidenhead converters operate
* that can make it look like this one is wrong.
*
* 1. Many return caps for paces 5 and 6 when according to the spwec
* they should return smalls.
*
* 2. Some converters, including QGrid from which this code was originally
* derived, add an 0.5 offset to the divided e and n just before it
* is cast to integer and used for places 5 and 6. This appears to be
* intended as a round-to-nearest hack (as opposed to the implicit
* round down from the cast). If I'm reading the spec right it
* is not correct to do this.
*/
static char buf[7];
int t1;
e=e+180.0;
t1=(int)(e/20);
buf[0]=(char)t1+'A';
e-=(float)t1*20.0;
t1=(int)e/2;
buf[2]=(char)t1+'0';
e-=(float)t1*2;
buf[4]=(char)(int)(e*12.0)+'a';
n=n+90.0;
t1=(int)(n/10.0);
buf[1]=(char)t1+'A';
n-=(float)t1*10.0;
buf[3]=(char)n+'0';
n-=(int)n;
n*=24; // convert to 24 division
buf[5]=(char)(int)(n)+'a';
buf[6] = '\0';
return buf;
}
#define NITEMS(x) (int)(sizeof(x)/sizeof(x[0])) /* from gpsd.h-tail */
struct exportmethod_t *export_lookup(const char *name)
/* Look up an available export method by name */
{
struct exportmethod_t *mp, *method = NULL;
for (mp = exportmethods;
mp < exportmethods + NITEMS(exportmethods);
mp++)
if (strcmp(mp->name, name) == 0)
method = mp;
return method;
}
void export_list(FILE *fp)
/* list known export methods */
{
struct exportmethod_t *method;
for (method = exportmethods;
method < exportmethods + NITEMS(exportmethods);
method++)
(void)fprintf(fp, "%s: %s\n", method->name, method->description);
}
struct exportmethod_t *export_default(void)
{
return (NITEMS(exportmethods) > 0) ? &exportmethods[0] : NULL;
}
/* Convert true heading to magnetic. Taken from the Aviation
Formulary v1.43. Valid to within two degrees within the
continiental USA except for the following airports: MO49 MO86 MO50
3K6 02K and KOOA. AK correct to better than one degree. Western
Europe correct to within 0.2 deg.
If you're not in one of these areas, I apologize, I don't have the
math to compute your varation. This is obviously extremely
floating-point heavy, so embedded people, beware of using.
Note that there are issues with using magnetic heading. This code
does not account for the possibility of travelling into or out of
an area of valid calculation beyond forcing the magnetic conversion
off. A better way to communicate this to the user is probably
desirable (in case the don't notice the subtle change from "(mag)"
to "(true)" on their display).
*/
float true2magnetic(double lat, double lon, double heading)
{
/* Western Europe */
if ((lat > 36.0) && (lat < 68.0) && (lon > -10.0) && (lon < 28.0)) {
heading =
(10.4768771667158 - (0.507385322418858 * lon) +
(0.00753170031703826 * pow(lon, 2))
- (1.40596203924748e-05 * pow(lon, 3)) -
(0.535560699962353 * lat)
+ (0.0154348808069955 * lat * lon) -
(8.07756425110592e-05 * lat * pow(lon, 2))
+ (0.00976887198864442 * pow(lat, 2)) -
(0.000259163929798334 * lon * pow(lat, 2))
- (3.69056939266123e-05 * pow(lat, 3)) + heading);
}
/* USA */
else if ((lat > 24.0) && (lat < 50.0) && (lon > 66.0) && (lon < 125.0)) {
lon = 0.0 - lon;
heading =
((-65.6811) + (0.99 * lat) + (0.0128899 * pow(lat, 2)) -
(0.0000905928 * pow(lat, 3)) + (2.87622 * lon)
- (0.0116268 * lat * lon) - (0.00000603925 * lon * pow(lat, 2)) -
(0.0389806 * pow(lon, 2))
- (0.0000403488 * lat * pow(lon, 2)) +
(0.000168556 * pow(lon, 3)) + heading);
}
/* AK */
else if ((lat > 54.0) && (lon > 130.0) && (lon < 172.0)) {
lon = 0.0 - lon;
heading =
(618.854 + (2.76049 * lat) - (0.556206 * pow(lat, 2)) +
(0.00251582 * pow(lat, 3)) - (12.7974 * lon)
+ (0.408161 * lat * lon) + (0.000434097 * lon * pow(lat, 2)) -
(0.00602173 * pow(lon, 2))
- (0.00144712 * lat * pow(lon, 2)) +
(0.000222521 * pow(lon, 3)) + heading);
} else {
/* We don't know how to compute magnetic heading for this
* location. */
heading = NAN;
}
/* No negative headings. */
if (isfinite(heading) != 0 && heading < 0.0)
heading += 360.0;
return (heading);
}
/* gpsdclient.c ends here */
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