static int repeat_count;
static void location_cleanup();
static int location_test();
+static guint test_timer;
static gboolean exit_program(gpointer data)
{
static gboolean wait_test()
{
+ if (test_timer) {
+ g_source_remove(test_timer);
+ test_timer = 0;
+ }
+
location_cleanup();
location_test();
void *user_data)
{
if (state == LOCATIONS_BOUNDARY_IN) {
- printf("Entering zone\n");
+ fprintf(stderr, "Entering zone\n");
} else { /* state == LOCATIONS_BOUNDARY_OUT */
- printf("Leaving zone\n");
+ fprintf(stderr, "Leaving zone\n");
}
- printf("Latitude: %lf, longitude: %lf, altitude: %lf\n", latitude, longitude, altitude);
+ fprintf(stderr, "Latitude: %lf, longitude: %lf, altitude: %lf\n", latitude, longitude, altitude);
- printf("Time: %s\n", ctime(×tamp));
+ fprintf(stderr, "Time: %s\n", ctime(×tamp));
}
static bool last_satellites_foreach_cb(unsigned int azimuth, unsigned int elevation, unsigned int prn, int snr, bool is_in_use,
void *user_data)
{
- printf("[Last Satellite information] azimuth : %d, elevation: %d, prn: %d, snr: %d, used: %d\n", azimuth, elevation,
+ fprintf(stderr, "[Last Satellite information] azimuth : %d, elevation: %d, prn: %d, snr: %d, used: %d\n", azimuth, elevation,
prn, snr, is_in_use);
return true;
}
static bool __poly_coords_cb(location_coords_s coords, void *user_data)
{
- printf("location_bounds_foreach_rect_coords(latitude: %lf, longitude: %lf) \n", coords.latitude, coords.longitude);
+ fprintf(stderr, "location_bounds_foreach_rect_coords(latitude: %lf, longitude: %lf) \n", coords.latitude, coords.longitude);
return TRUE;
}
static bool __location_bounds_cb(location_bounds_h bounds, void *user_data)
{
if (bounds == NULL)
- printf("bounds ==NULL\n");
+ fprintf(stderr, "bounds ==NULL\n");
else {
location_bounds_type_e type;
location_bounds_get_type(bounds, &type);
location_coords_s center;
double radius;
location_bounds_get_circle_coords(bounds, ¢er, &radius);
- printf("location_bounds_get_circle_coords(center: %lf, %lf, radius: %lf) \n", center.latitude,
+ fprintf(stderr, "location_bounds_get_circle_coords(center: %lf, %lf, radius: %lf) \n", center.latitude,
center.longitude, radius);
} else if (type == LOCATION_BOUNDS_RECT) {
location_coords_s left_top;
location_coords_s right_bottom;
location_bounds_get_rect_coords(bounds, &left_top, &right_bottom);
- printf("location_bounds_get_rect_coords(left_top: %lf, %lf - right_bottom: %lf, %lf) \n",
+ fprintf(stderr, "location_bounds_get_rect_coords(left_top: %lf, %lf - right_bottom: %lf, %lf) \n",
left_top.latitude, left_top.longitude, right_bottom.latitude, right_bottom.longitude);
} else if (type == LOCATION_BOUNDS_POLYGON) {
location_bounds_foreach_polygon_coords(bounds, __poly_coords_cb, NULL);
location_bounds_h bounds_circle;
ret = location_bounds_create_circle(center, radius, &bounds_circle);
if (ret != LOCATION_BOUNDS_ERROR_NONE) {
- printf("location_bounds_create_circle() failed\n");
+ fprintf(stderr, "location_bounds_create_circle() failed\n");
} else
- printf("Bounds(circle) has been created successfully.\n");
+ fprintf(stderr, "Bounds(circle) has been created successfully.\n");
ret = location_manager_add_boundary(manager, bounds_circle);
if (ret != LOCATIONS_ERROR_NONE) {
- printf("Setting boundary failed\n");
+ fprintf(stderr, "Setting boundary failed\n");
} else
- printf("Boundary set\n");
+ fprintf(stderr, "Boundary set\n");
location_coords_s center2;
double radius2;
ret = location_bounds_get_circle_coords(bounds_circle, ¢er2, &radius2);
if (ret != LOCATIONS_ERROR_NONE) {
- printf("location_bounds_get_circle_coords() failed\n");
+ fprintf(stderr, "location_bounds_get_circle_coords() failed\n");
} else
- printf("location_bounds_get_circle_coords(center: %lf, %lf, radius: %lf) \n", center2.latitude,
+ fprintf(stderr, "location_bounds_get_circle_coords(center: %lf, %lf, radius: %lf) \n", center2.latitude,
center2.longitude, radius2);
/*Add the rect bounds */
location_bounds_h bounds_rect;
ret = location_bounds_create_rect(left_top, right_bottom, &bounds_rect);
if (ret != LOCATION_BOUNDS_ERROR_NONE) {
- printf("location_bounds_create_rect() failed\n");
+ fprintf(stderr, "location_bounds_create_rect() failed\n");
} else
- printf("Bounds(rect) has been created successfully.\n");
+ fprintf(stderr, "Bounds(rect) has been created successfully.\n");
ret = location_manager_add_boundary(manager, bounds_rect);
if (ret != LOCATIONS_ERROR_NONE) {
- printf("Setting boundary failed\n");
+ fprintf(stderr, "Setting boundary failed\n");
} else
- printf("Boundary set\n");
+ fprintf(stderr, "Boundary set\n");
location_coords_s left_top2;
location_coords_s right_bottom2;
ret = location_bounds_get_rect_coords(bounds_rect, &left_top2, &right_bottom2);
if (ret != LOCATIONS_ERROR_NONE) {
- printf("location_bounds_get_rect_coords() failed\n");
+ fprintf(stderr, "location_bounds_get_rect_coords() failed\n");
} else
- printf("location_bounds_get_rect_coords(left_top: %lf, %lf - right_bottom: %lf, %lf) \n", left_top2.latitude,
+ fprintf(stderr, "location_bounds_get_rect_coords(left_top: %lf, %lf - right_bottom: %lf, %lf) \n", left_top2.latitude,
left_top2.longitude, right_bottom2.latitude, right_bottom2.longitude);
/*Add the polygon bounds */
location_bounds_h bounds_poly;
ret = location_bounds_create_polygon(coord_list, poly_size, &bounds_poly);
if (ret != LOCATION_BOUNDS_ERROR_NONE) {
- printf("location_bounds_create_polygon() failed\n");
+ fprintf(stderr, "location_bounds_create_polygon() failed\n");
} else
- printf("Bounds(polygon) has been created successfully.\n");
+ fprintf(stderr, "Bounds(polygon) has been created successfully.\n");
ret = location_manager_add_boundary(manager, bounds_poly);
if (ret != LOCATIONS_ERROR_NONE) {
- printf("Setting boundary failed\n");
+ fprintf(stderr, "Setting boundary failed\n");
} else
- printf("Boundary set\n");
+ fprintf(stderr, "Boundary set\n");
ret = location_bounds_foreach_polygon_coords(bounds_poly, __poly_coords_cb, NULL);
if (ret != LOCATIONS_ERROR_NONE) {
- printf("location_bounds_get_rect_coords() failed\n");
+ fprintf(stderr, "location_bounds_get_rect_coords() failed\n");
}
location_coords_s test_coords;
test_coords.longitude = 12;
if (location_bounds_contains_coordinates(bounds_poly, test_coords))
- printf("location_bounds_contains_coordinates() retrun TRUE \n");
+ fprintf(stderr, "location_bounds_contains_coordinates() retrun TRUE \n");
else
- printf("location_bounds_contains_coordinates() retrun FALSE \n");
+ fprintf(stderr, "location_bounds_contains_coordinates() retrun FALSE \n");
/*print current bounds */
ret = location_manager_foreach_boundary(manager, __location_bounds_cb, (void *)manager);
if (ret != LOCATIONS_ERROR_NONE) {
- printf("location_manager_foreach_boundary() failed\n");
+ fprintf(stderr, "location_manager_foreach_boundary() failed\n");
}
}
ret = location_manager_get_last_position(manager, &altitude, &latitude, &longitude, ×tamp);
if (ret != LOCATIONS_ERROR_NONE) {
- printf(" Fail: location_manager_get_last_position ---> %d \n", ret);
+ fprintf(stderr, " Fail: location_manager_get_last_position ---> %d \n", ret);
} else {
- printf("[%ld] alt: %g, lat: %g, long: %g\n", timestamp, altitude, latitude, longitude);
+ fprintf(stderr, "[%ld] alt: %g, lat: %g, long: %g\n", timestamp, altitude, latitude, longitude);
}
ret = location_manager_get_last_velocity(manager, &climb, &direction, &speed, ×tamp);
if (ret != LOCATIONS_ERROR_NONE) {
- printf(" Fail: location_manager_get_last_velocity ---> %d \n", ret);
+ fprintf(stderr, " Fail: location_manager_get_last_velocity ---> %d \n", ret);
} else {
- printf("climb: %f, direction: %f, speed: %f\n", climb, direction, speed);
+ fprintf(stderr, "climb: %f, direction: %f, speed: %f\n", climb, direction, speed);
}
ret = location_manager_get_last_accuracy(manager, &level, &horizontal, &vertical);
if (ret != LOCATIONS_ERROR_NONE) {
- printf(" Fail: location_manager_get_last_accuracy ---> %d \n", ret);
+ fprintf(stderr, " Fail: location_manager_get_last_accuracy ---> %d \n", ret);
} else {
- printf("Level: %d, horizontal: %g, vertical: %g\n", level, horizontal, vertical);
+ fprintf(stderr, "Level: %d, horizontal: %g, vertical: %g\n", level, horizontal, vertical);
}
ret = gps_status_get_last_satellite(manager, &num_of_active, &num_of_inview, ×tamp);
if (ret != LOCATIONS_ERROR_NONE) {
- printf(" Fail: gps_status_get_last_satellite_count_in_view ---> %d \n", ret);
+ fprintf(stderr, " Fail: gps_status_get_last_satellite_count_in_view ---> %d \n", ret);
} else {
- printf("[%ld] Satellite number of active: %d, in view: %d\n", timestamp, num_of_active, num_of_inview);
+ fprintf(stderr, "[%ld] Satellite number of active: %d, in view: %d\n", timestamp, num_of_active, num_of_inview);
}
ret = gps_status_foreach_last_satellites_in_view(manager, last_satellites_foreach_cb, NULL);
if (ret != LOCATIONS_ERROR_NONE) {
- printf(" Fail: gps_status_foreach_last_satellites_in_view ---> %d \n", ret);
+ fprintf(stderr, " Fail: gps_status_foreach_last_satellites_in_view ---> %d \n", ret);
}
}
#endif
time_t timestamp;
ret = location_manager_get_position(lm, &altitude, &latitude, &longitude, ×tamp);
if (ret != LOCATIONS_ERROR_NONE) {
- printf(" Fail: location_manager_get_position ---> %d \n", ret);
+ fprintf(stderr, " Fail: location_manager_get_position ---> %d \n", ret);
} else {
- printf("[%ld] alt: %g, lat %g, long %g\n", timestamp, altitude, latitude, longitude);
+ fprintf(stderr, "[%ld] alt: %g, lat %g, long %g\n", timestamp, altitude, latitude, longitude);
}
location_accuracy_level_e level;
double vertical;
ret = location_manager_get_accuracy(lm, &level, &horizontal, &vertical);
if (ret != LOCATIONS_ERROR_NONE) {
- printf(" Fail: location_manager_get_accuracy ---> %d \n", ret);
+ fprintf(stderr, " Fail: location_manager_get_accuracy ---> %d \n", ret);
} else {
- printf("Level: %d, horizontal: %g, vertical %g\n", level, horizontal, vertical);
+ fprintf(stderr, "Level: %d, horizontal: %g, vertical %g\n", level, horizontal, vertical);
}
#if 0
char *nmea;
ret = gps_status_get_nmea(lm, &nmea);
if (ret != LOCATIONS_ERROR_NONE) {
- printf(" Fail: gps_status_get_nmea ---> %d \n", ret);
+ fprintf(stderr, " Fail: gps_status_get_nmea ---> %d \n", ret);
} else {
- printf("NMEA: %s\n", nmea);
+ fprintf(stderr, "NMEA: %s\n", nmea);
free(nmea);
}
#endif
void _position_updated_cb(double latitude, double longitude, double altitude, time_t timestamp, void *user_data)
{
fprintf(stderr, "-------------------------- position updated --------------------------\n");
- printf("[%ld] lat[%f] lon[%f] alt[%f]\n", timestamp, latitude, longitude, altitude);
+ fprintf(stderr, "[%ld] lat[%f] lon[%f] alt[%f]\n", timestamp, latitude, longitude, altitude);
+
+ location_manager_h lm = (location_manager_h) user_data;
+ location_accuracy_level_e level;
+ double horizontal;
+ double vertical;
+ int ret = location_manager_get_accuracy(lm, &level, &horizontal, &vertical);
+ if (ret != LOCATIONS_ERROR_NONE) {
+ fprintf(stderr, " Fail: location_manager_get_accuracy ---> %d \n", ret);
+ } else {
+ fprintf(stderr, "Level: %d, horizontal: %g, vertical %g\n", level, horizontal, vertical);
+ }
repeat_count++;
if (repeat_count > 2) {
- g_timeout_add_seconds(1, wait_test, NULL);
+ test_timer = g_timeout_add_seconds(1, wait_test, NULL);
}
}
void _velocity_updated_cb(double speed, double direction, double climb, time_t timestamp, void *user_data)
{
fprintf(stderr, "-------------------------- velocity updated --------------------------\n");
- printf("[%ld] speed[%f] direction[%f] climb[%f]\n", timestamp, speed, direction, climb);
+ fprintf(stderr, "[%ld] speed[%f] direction[%f] climb[%f]\n", timestamp, speed, direction, climb);
}
void _location_cb(int error, double latitude, double longitude, double altitude, time_t timestamp, double speed, double climb, double direction, void *user_data)
{
- printf("error[%d]\n", error);
- printf("location_cb: lat[%f] lon[%f] alt[%f]\n", latitude, longitude, altitude);
- printf("speed[%f] climb[%f] direction[%f]\n", speed, climb, direction);
+ fprintf(stderr, "error[%d]\n", error);
+ fprintf(stderr, "location_cb: lat[%f] lon[%f] alt[%f]\n", latitude, longitude, altitude);
+ fprintf(stderr, "speed[%f] climb[%f] direction[%f]\n", speed, climb, direction);
- g_timeout_add_seconds(1, wait_test, NULL);
+ test_timer = g_timeout_add_seconds(1, wait_test, NULL);
}
void _location_changed_cb(double latitude, double longitude, double altitude, double speed, double direction, double horizontal_accuracy, time_t timestamp, void *user_data)
{
fprintf(stderr, "-------------------------- location changed --------------------------\n");
- printf("[%ld] lat[%f] lon[%f] alt[%f] speed[%lf] direction[%lf], horizontal_accuracy[%lf]\n", timestamp, latitude, longitude, altitude, speed, direction, horizontal_accuracy);
+ fprintf(stderr, "[%ld] lat[%f] lon[%f] alt[%f] speed[%lf] direction[%lf], horizontal_accuracy[%lf]\n", timestamp, latitude, longitude, altitude, speed, direction, horizontal_accuracy);
repeat_count++;
if (repeat_count > 2) {
- g_timeout_add_seconds(1, wait_test, NULL);
+ test_timer = g_timeout_add_seconds(1, wait_test, NULL);
}
}
bool _get_location_cb(double latitude, double longitude, double altitude, double speed, double direction, double horizontal, double vertical, time_t timestamp, void *user_data)
{
fprintf(stderr, "-------------------------- batch: get location --------------------------\n");
- printf("[%ld] lat[%f] lon[%f] alt[%f] speed[%lf] direction[%lf], horizontal_accuracy[%lf]\n", timestamp, latitude, longitude, altitude, speed, direction, horizontal);
+ fprintf(stderr, "[%ld] lat[%f] lon[%f] alt[%f] speed[%lf] direction[%lf], horizontal_accuracy[%lf]\n", timestamp, latitude, longitude, altitude, speed, direction, horizontal);
return TRUE;
}
void _location_batch_cb(int num_of_location, void *user_data)
{
fprintf(stderr, "-------------------------- location batch --------------------------\n");
- printf("num_of_location: [%d]\n", num_of_location);
+ fprintf(stderr, "num_of_location: [%d]\n", num_of_location);
location_manager_h manager = user_data;
repeat_count++;
if (repeat_count > 1) {
- g_timeout_add_seconds(1, wait_test, NULL);
+ test_timer = g_timeout_add_seconds(1, wait_test, NULL);
}
}
static void __setting_cb(location_method_e method, bool enable, void *user_data)
{
- printf("method[%d], enable[%d]\n", method, enable);
+ fprintf(stderr, "method[%d], enable[%d]\n", method, enable);
}
static void print_location_status()
{
- printf("==== LOCATION STATUS ======\n");
+ fprintf(stderr, "==== LOCATION Setting state =====\n");
bool is_enabled = FALSE;
location_manager_is_enabled_method(LOCATIONS_METHOD_HYBRID, &is_enabled);
- printf("hybrid: %d, ", is_enabled);
+ fprintf(stderr, "hybrid: %d, ", is_enabled);
location_manager_is_enabled_method(LOCATIONS_METHOD_GPS, &is_enabled);
- printf("gps: %d, ", is_enabled);
+ fprintf(stderr, "gps: %d, ", is_enabled);
location_manager_is_enabled_method(LOCATIONS_METHOD_WPS, &is_enabled);
- printf("wps: %d\n", is_enabled);
+ fprintf(stderr, "wps: %d\n", is_enabled);
}
static int enable_method(location_method_e method, bool enable)
{
int ret = 0;
- printf("==== LOCATION STATUS ======\n");
+ fprintf(stderr, "==== LOCATION Setting changed =====\n");
location_manager_set_setting_changed_cb(LOCATIONS_METHOD_HYBRID, __setting_cb, NULL);
- location_manager_set_setting_changed_cb(LOCATIONS_METHOD_GPS, __setting_cb, NULL);
- location_manager_set_setting_changed_cb(LOCATIONS_METHOD_WPS, __setting_cb, NULL);
+ fprintf(stderr, "method[%d], enable[%d]\n", method, enable);
ret = location_manager_enable_method(method, enable);
- printf("method[%d]: %d\n", method, enable);
+
+ location_manager_unset_setting_changed_cb(LOCATIONS_METHOD_HYBRID);
return ret;
}
static void print_menu()
{
- printf("==== LOCATION TEST ======\n");
- printf("[1] Get location: LOCATIONS_METHOD_HYBRID\n");
- printf("[2] Get location: LOCATIONS_METHOD_GPS\n");
- printf("[3] Get location: LOCATIONS_METHOD_WPS\n");
- printf("[4] Single location: LOCATIONS_METHOD_HYBRID\n");
- printf("[5] Single location: LOCATIONS_METHOD_GPS\n");
- printf("[6] Single location: LOCATIONS_METHOD_WPS\n\n");
- printf("[11] Change update interval: LOCATIONS_METHOD_HYBRID\n");
- printf("[12] Change update interval: LOCATIONS_METHOD_GPS\n\n");
- printf("[21] Distance based location update: LOCATIONS_METHOD_HYBRID\n");
- printf("[22] Distance based location update: LOCATIONS_METHOD_GPS\n");
- printf("[23] Distance based location update: LOCATIONS_METHOD_WPS\n\n");
- printf("[31] Location batch update: LOCATIONS_METHOD_GPS\n\n");
- printf("[41] Turn on/off method: LOCATIONS_METHOD_HYBRID\n");
- printf("[42] Turn on/off method: LOCATIONS_METHOD_GPS\n");
- printf("[43] Turn on/off method: LOCATIONS_METHOD_WPS\n\n");
- printf("[51] Boundary Test\n\n");
- printf("[0] Exit!!!\n\n");
- printf("Select menu: ");
+ fprintf(stderr, "============= LOCATION TEST =============\n");
+ fprintf(stderr, "[1] Get location: LOCATIONS_METHOD_HYBRID\n");
+ fprintf(stderr, "[2] Get location: LOCATIONS_METHOD_GPS\n");
+ fprintf(stderr, "[3] Get location: LOCATIONS_METHOD_WPS\n");
+ fprintf(stderr, "[4] Single location: LOCATIONS_METHOD_HYBRID\n");
+ fprintf(stderr, "[5] Single location: LOCATIONS_METHOD_GPS\n");
+ fprintf(stderr, "[6] Single location: LOCATIONS_METHOD_WPS\n\n");
+ fprintf(stderr, "[11] Change update interval: LOCATIONS_METHOD_HYBRID\n");
+ fprintf(stderr, "[12] Change update interval: LOCATIONS_METHOD_GPS\n\n");
+ fprintf(stderr, "[21] Distance based location update: LOCATIONS_METHOD_HYBRID\n");
+ fprintf(stderr, "[22] Distance based location update: LOCATIONS_METHOD_GPS\n");
+ fprintf(stderr, "[23] Distance based location update: LOCATIONS_METHOD_WPS\n\n");
+ fprintf(stderr, "[31] Location batch update: LOCATIONS_METHOD_GPS\n\n");
+ fprintf(stderr, "[41] Turn on/off method: LOCATIONS_METHOD_HYBRID\n");
+ fprintf(stderr, "[42] Turn on/off method: LOCATIONS_METHOD_GPS\n");
+ fprintf(stderr, "[43] Turn on/off method: LOCATIONS_METHOD_WPS\n\n");
+ fprintf(stderr, "[51] Boundary Test\n\n");
+ fprintf(stderr, "[0] Exit!!!\n\n");
+ fprintf(stderr, "Select menu: ");
if (scanf("%d", &menu) < 0) {
- printf("Can't read menu !!!\n");
+ fprintf(stderr, "Can't read menu !!!\n");
}
}
int ret = LOCATIONS_ERROR_NONE;
int basic = 0;
int interval = 1;
+ repeat_count = 0;
print_location_status();
print_menu();
switch (menu) {
case 1:
- basic = 1;
- ret = location_manager_create(LOCATIONS_METHOD_HYBRID, &manager);
- printf("LOCATIONS_METHOD_HYBRID create: %d\n", ret);
- ret = location_manager_start(manager);
- printf("start: %d\n", ret);
- break;
case 2:
+ case 3: {
basic = 1;
- ret = location_manager_create(LOCATIONS_METHOD_GPS, &manager);
- printf("LOCATIONS_METHOD_GPS create: %d\n", ret);
- ret = location_manager_start(manager);
- printf("start: %d\n", ret);
- break;
- case 3:
- basic = 1;
- ret = location_manager_create(LOCATIONS_METHOD_WPS, &manager);
+
+ int method = menu - 1;
+ ret = location_manager_create(method, &manager);
+ fprintf(stderr, "location_manager_create (method: %d): %d\n", method, ret);
ret = location_manager_start(manager);
- printf("start: %d\n", ret);
+ fprintf(stderr, "start: %d\n", ret);
break;
+ }
case 4:
case 5:
case 6: {
int timeout = 30;
- printf("\n Input timeout ==> ");
+ fprintf(stderr, "\n Input timeout ==> ");
ret = scanf("%d", &timeout);
int method = menu - 4;
ret = location_manager_create(method, &manager);
ret = location_manager_request_single_location(manager, timeout, _location_cb, manager);
- printf("request single_location (method: %d): %d\n", method, ret);
+ fprintf(stderr, "request single_location (method: %d): %d\n", method, ret);
break;
}
case 11:
case 12:
case 13: {
- repeat_count = 0;
int interval = 1;
- printf("\n Input position interval ==> ");
+ fprintf(stderr, "\n Input position interval ==> ");
ret = scanf("%d", &interval);
- int method = menu - 4;
+ int method = menu - 11;
ret = location_manager_create(method, &manager);
- printf("location_manager_create (method: %d): %d\n", method, ret);
+ fprintf(stderr, "location_manager_create (method: %d): %d\n", method, ret);
ret = location_manager_set_position_updated_cb(manager, _position_updated_cb, interval, (void *)manager);
- printf("set position changed callback: %d\n", ret);
+ fprintf(stderr, "set_position_updated_cb: %d\n", ret);
/*
ret = location_manager_set_velocity_updated_cb(manager, _velocity_updated_cb, interval*2, (void *)manager);
- printf("set velocity changed callback: %d\n", ret);
+ fprintf(stderr, "set_velocity_updated_cb: %d\n", ret);
*/
ret = location_manager_set_location_changed_cb(manager, _location_changed_cb, interval * 2, (void *)manager);
- printf("set location changed callback: %d\n", ret);
+ fprintf(stderr, "set_location_changed_cb: %d\n", ret);
ret = location_manager_start(manager);
- repeat_count = 0;
+ fprintf(stderr, "start: %d\n", ret);
break;
}
case 21:
case 22:
case 23: {
- repeat_count = 0;
int interval = 1;
int method = menu - 21;
- printf("\n Input position interval ==> ");
+ fprintf(stderr, "\n Input position interval ==> ");
ret = scanf("%d", &interval);
ret = location_manager_create(method, &manager);
- printf("location_manager_create (method : %d)", method);
+ fprintf(stderr, "location_manager_create (method : %d)", method);
/*ret = location_manager_set_position_updated_cb(manager, _position_updated_cb, interval, (void *)manager); */
- /*printf("set position changed callback: %d\n", ret); */
+ /*fprintf(stderr, "set position changed callback: %d\n", ret); */
ret = location_manager_set_distance_based_location_changed_cb(manager, _location_changed_cb, interval, 30, (void *)manager);
- printf("set location changed callback: %d\n", ret);
+ fprintf(stderr, "set_distance_based_location_changed_cb: %d\n", ret);
ret = location_manager_start(manager);
+ fprintf(stderr, "start: %d\n", ret);
break;
}
case 31: {
- repeat_count = 0;
int interval = 1;
- printf("\n Input batch interval ==> ");
+ fprintf(stderr, "\n Input batch interval ==> ");
ret = scanf("%d", &interval);
int period = 60;
- printf(" Input batch period ==> ");
+ fprintf(stderr, " Input batch period ==> ");
ret = scanf("%d", &period);
ret = location_manager_create(LOCATIONS_METHOD_GPS, &manager);
- printf("location_manager_create (method : %d)\n", LOCATIONS_METHOD_GPS);
+ fprintf(stderr, "location_manager_create (method : %d)\n", LOCATIONS_METHOD_GPS);
ret = location_manager_set_location_batch_cb(manager, _location_batch_cb, interval, period, (void *)manager);
- printf("set location batch callback: %d\n", ret);
+ fprintf(stderr, "set_location_batch_cb: %d\n", ret);
ret = location_manager_start_batch(manager);
+ fprintf(stderr, "start_batch: %d\n", ret);
break;
}
case 41:
int method = menu - 41;
int onoff = 1;
- printf("\n Input ON: 1 or OFF: 0 ==> ");
+ fprintf(stderr, "\n Input ON: 1 or OFF: 0 ==> ");
ret = scanf("%d", &onoff);
ret = enable_method(method, onoff);
- printf("Enabling method[%d]: %d\n", method, ret);
+ fprintf(stderr, "Enabling method: [%d], ret=%d\n", method, ret);
break;
}
testLocationCoordinates.longitude = 12;
location_bound_error_e nRet = location_bounds_create_polygon(location_coord_list, nPolySize, &hPolyLocationBound);
- printf("location_bounds_create_polygon= %d\n", nRet);
+ fprintf(stderr, "location_bounds_create_polygon: %d\n", nRet);
bIsContained = location_bounds_contains_coordinates(hPolyLocationBound, testLocationCoordinates);// Target API
- printf("bIsContained : %d\n", bIsContained);
+ fprintf(stderr, "bIsContained: %d\n", bIsContained);
location_bounds_destroy(hPolyLocationBound);
break;
}
case 0:
- g_timeout_add_seconds(0.1, exit_program, NULL);
+ g_timeout_add_seconds(1, exit_program, NULL);
return 0;
default:
- printf("Exit!!! Input: %d\n", menu);
- g_timeout_add_seconds(0.1, exit_program, NULL);
+ fprintf(stderr, "Exit!!! Input: %d\n", menu);
+ g_timeout_add_seconds(1, exit_program, NULL);
return 0;
}
if (ret != LOCATIONS_ERROR_NONE) {
- printf("Test Failed!!! [%d]\n", ret);
- g_timeout_add_seconds(0.1, exit_program, NULL);
+ fprintf(stderr, "Test Failed!!! [%d]\n", ret);
+ g_timeout_add_seconds(1, exit_program, NULL);
return 0;
}
if (menu < 40) {
ret = location_manager_set_service_state_changed_cb(manager, _state_change_cb, (void *)manager);
- printf("set state changed callback: %d\n", ret);
+ fprintf(stderr, "set_service_state_changed_cb: %d\n", ret);
if (basic) {
ret = location_manager_set_position_updated_cb(manager, _position_updated_cb, interval, (void *)manager);
- printf("set position changed callback: %d\n", ret);
+ fprintf(stderr, "set_position_updated_cb: %d\n", ret);
}
}
else {
- g_timeout_add_seconds(0.1, wait_test, NULL);
+ test_timer = g_timeout_add_seconds(1, wait_test, NULL);
}
return 0;
int ret = 0;
if (manager != NULL) {
ret = location_manager_stop(manager);
- printf("stop: %d\n", ret);
+ fprintf(stderr, "stop: %d\n", ret);
ret = location_manager_unset_service_state_changed_cb(manager);
- printf("unset: %d\n", ret);
+ fprintf(stderr, "unset_service_state_changed_cb: %d\n", ret);
ret = location_manager_unset_position_updated_cb(manager);
- printf("unset: %d\n", ret);
+ fprintf(stderr, "unset_position_updated_cb: %d\n", ret);
ret = location_manager_destroy(manager);
- printf("destroy: %d\n", ret);
+ fprintf(stderr, "destroy: %d\n", ret);
manager = NULL;
}
- location_manager_unset_setting_changed_cb(LOCATIONS_METHOD_GPS);
- location_manager_unset_setting_changed_cb(LOCATIONS_METHOD_WPS);
}
int main(int argc, char **argv)
projects / platform / core / api / location-manager.git / blobdiff