{
location_method_e _method = LOCATIONS_METHOD_NONE;
switch (method) {
- case LOCATION_METHOD_HYBRID:
- _method = LOCATIONS_METHOD_HYBRID;
- break;
- case LOCATION_METHOD_GPS:
- _method = LOCATIONS_METHOD_GPS;
- break;
- case LOCATION_METHOD_WPS:
- _method = LOCATIONS_METHOD_WPS;
- break;
- case LOCATION_METHOD_NONE:
- default:
- break;
+ case LOCATION_METHOD_HYBRID:
+ _method = LOCATIONS_METHOD_HYBRID;
+ break;
+ case LOCATION_METHOD_GPS:
+ _method = LOCATIONS_METHOD_GPS;
+ break;
+ case LOCATION_METHOD_WPS:
+ _method = LOCATIONS_METHOD_WPS;
+ break;
+ case LOCATION_METHOD_NONE:
+ default:
+ break;
}
return _method;
}
{
LocationMethod _method = LOCATION_METHOD_NONE;
switch (method) {
- case LOCATIONS_METHOD_HYBRID:
- _method = LOCATION_METHOD_HYBRID;
- break;
- case LOCATIONS_METHOD_GPS:
- _method = LOCATION_METHOD_GPS;
- break;
- case LOCATIONS_METHOD_WPS:
- _method = LOCATION_METHOD_WPS;
- break;
- case LOCATIONS_METHOD_MOCK:
- _method = LOCATION_METHOD_MOCK;
- break;
- case LOCATIONS_METHOD_NONE:
- default:
- _method = LOCATION_METHOD_NONE;
- break;
+ case LOCATIONS_METHOD_HYBRID:
+ _method = LOCATION_METHOD_HYBRID;
+ break;
+ case LOCATIONS_METHOD_GPS:
+ _method = LOCATION_METHOD_GPS;
+ break;
+ case LOCATIONS_METHOD_WPS:
+ _method = LOCATION_METHOD_WPS;
+ break;
+ case LOCATIONS_METHOD_MOCK:
+ _method = LOCATION_METHOD_MOCK;
+ break;
+ case LOCATIONS_METHOD_NONE:
+ default:
+ _method = LOCATION_METHOD_NONE;
+ break;
}
return _method;
}
LOCATIONS_LOGD("Current satellite information: timestamp : %d, number of active : %d, number of inview : %d",
sat->timestamp, sat->num_of_sat_used, sat->num_of_sat_inview);
((gps_status_satellite_updated_cb) handle->user_cb[_LOCATIONS_EVENT_TYPE_SATELLITE])(sat->num_of_sat_used, sat->num_of_sat_inview,
- sat->timestamp, handle->user_data[_LOCATIONS_EVENT_TYPE_SATELLITE]);
+ sat->timestamp, handle->user_data[_LOCATIONS_EVENT_TYPE_SATELLITE]);
} else if (type == DISTANCE_UPDATED && handle->user_cb[_LOCATIONS_EVENT_TYPE_DISTANCE]) {
LocationPosition *pos = (LocationPosition *) data;
LocationVelocity *vel = (LocationVelocity *) velocity; /* current velocity */
((location_changed_cb) handle->user_cb[_LOCATIONS_EVENT_TYPE_DISTANCE])(0, pos->latitude, pos->longitude, pos->altitude,
- vel->speed, vel->direction, pos->timestamp, handle->user_data[_LOCATIONS_EVENT_TYPE_DISTANCE]);
+ vel->speed, vel->direction, pos->timestamp, handle->user_data[_LOCATIONS_EVENT_TYPE_DISTANCE]);
} else {
if (handle->user_cb[_LOCATIONS_EVENT_TYPE_POSITION] && (type & POSITION_UPDATED) != 0) {
LocationPosition *pos = (LocationPosition *) data;
- ((location_position_updated_cb) handle->user_cb[_LOCATIONS_EVENT_TYPE_POSITION])(pos->latitude, pos->longitude, pos->altitude, pos->timestamp,
- handle->user_data[_LOCATIONS_EVENT_TYPE_POSITION]);
+ ((location_position_updated_cb) handle->user_cb[_LOCATIONS_EVENT_TYPE_POSITION])(pos->latitude, pos->longitude, pos->altitude,
+ pos->timestamp, handle->user_data[_LOCATIONS_EVENT_TYPE_POSITION]);
}
if (handle->user_cb[_LOCATIONS_EVENT_TYPE_VELOCITY] && (type & VELOCITY_UPDATED) != 0) {
LocationVelocity *vel = (LocationVelocity *) velocity;
- ((location_velocity_updated_cb) handle->user_cb[_LOCATIONS_EVENT_TYPE_VELOCITY])(vel->speed, vel->direction, vel->climb, vel->timestamp,
- handle->user_data[_LOCATIONS_EVENT_TYPE_VELOCITY]);
+ ((location_velocity_updated_cb) handle->user_cb[_LOCATIONS_EVENT_TYPE_VELOCITY])(vel->speed, vel->direction, vel->climb,
+ vel->timestamp, handle->user_data[_LOCATIONS_EVENT_TYPE_VELOCITY]);
}
if (handle->user_cb[_LOCATIONS_EVENT_TYPE_POS_VEL] && (type & LOCATION_CHANGED) != 0) {
LocationVelocity *vel = (LocationVelocity *) velocity;
LocationAccuracy *acc = (LocationAccuracy *) accuracy;
((location_changed_cb) handle->user_cb[_LOCATIONS_EVENT_TYPE_POS_VEL])(pos->latitude, pos->longitude, pos->altitude,
- vel->speed, vel->direction, acc->horizontal_accuracy, pos->timestamp, handle->user_data[_LOCATIONS_EVENT_TYPE_POS_VEL]);
+ vel->speed, vel->direction, acc->horizontal_accuracy, pos->timestamp, handle->user_data[_LOCATIONS_EVENT_TYPE_POS_VEL]);
}
}
}
}
}
+static void __cb_batch_updated(GObject *self, guint num_of_location, gpointer userdata)
+{
+ LOCATIONS_LOGD("Batch callback function has been invoked.");
+ location_manager_s *handle = (location_manager_s *) userdata;
+
+ if (handle->user_cb[_LOCATIONS_EVENT_TYPE_BATCH])
+ ((location_batch_cb) handle->user_cb[_LOCATIONS_EVENT_TYPE_BATCH])(num_of_location, handle->user_data[_LOCATIONS_EVENT_TYPE_BATCH]);
+}
+
static void __cb_service_enabled(GObject *self, guint status, gpointer userdata)
{
LOCATIONS_LOGD("Invoked. status = %d", status);
location_manager_s *handle = (location_manager_s *) userdata;
if (handle->user_cb[_LOCATIONS_EVENT_TYPE_SERVICE_STATE]) {
((location_service_state_changed_cb)
- handle->user_cb[_LOCATIONS_EVENT_TYPE_SERVICE_STATE])(LOCATIONS_SERVICE_DISABLED,handle->user_data[_LOCATIONS_EVENT_TYPE_SERVICE_STATE]);
+ handle->user_cb[_LOCATIONS_EVENT_TYPE_SERVICE_STATE])(LOCATIONS_SERVICE_DISABLED, handle->user_data[_LOCATIONS_EVENT_TYPE_SERVICE_STATE]);
}
}
static int __compare_position(gconstpointer a, gconstpointer b)
{
- if (location_position_equal((LocationPosition *) a, (LocationPosition *)b) == TRUE) {
+ if (location_position_equal((LocationPosition *) a, (LocationPosition *)b) == TRUE)
return 0;
- }
return -1;
}
if (bound1->type == bound2->type) {
switch (bound1->type) {
- case LOCATION_BOUNDARY_CIRCLE:
- if (location_position_equal(bound1->circle.center, bound2->circle.center) && bound1->circle.radius == bound2->circle.radius) {
- ret = 0;
- }
- break;
- case LOCATION_BOUNDARY_RECT:
- if (location_position_equal(bound1->rect.left_top, bound2->rect.left_top) && location_position_equal(bound1->rect.right_bottom, bound2->rect.right_bottom)) {
- ret = 0;
- }
- break;
- case LOCATION_BOUNDARY_POLYGON: {
- GList *boundary1_next = NULL;
- GList *boundary2_start = NULL, *boundary2_prev = NULL, *boundary2_next = NULL;
- if (g_list_length(bound1->polygon.position_list) != g_list_length(bound2->polygon.position_list)) {
- return -1;
- }
-
- boundary2_start = g_list_find_custom(bound2->polygon.position_list, g_list_nth_data(bound1->polygon.position_list, 0), (GCompareFunc) __compare_position);
- if (boundary2_start == NULL) return -1;
+ case LOCATION_BOUNDARY_CIRCLE:
+ if (location_position_equal(bound1->circle.center, bound2->circle.center) && bound1->circle.radius == bound2->circle.radius)
+ ret = 0;
- boundary2_prev = g_list_previous(boundary2_start);
- boundary2_next = g_list_next(boundary2_start);
+ break;
+ case LOCATION_BOUNDARY_RECT:
+ if (location_position_equal(bound1->rect.left_top, bound2->rect.left_top) && location_position_equal(bound1->rect.right_bottom, bound2->rect.right_bottom))
+ ret = 0;
- if (boundary2_prev == NULL) boundary2_prev = g_list_last(bound2->polygon.position_list);
- if (boundary2_next == NULL) boundary2_next = g_list_first(bound2->polygon.position_list);
+ break;
+ case LOCATION_BOUNDARY_POLYGON: {
+ GList *boundary1_next = NULL;
+ GList *boundary2_start = NULL, *boundary2_prev = NULL, *boundary2_next = NULL;
+ if (g_list_length(bound1->polygon.position_list) != g_list_length(bound2->polygon.position_list))
+ return -1;
+
+ boundary2_start = g_list_find_custom(bound2->polygon.position_list, g_list_nth_data(bound1->polygon.position_list, 0), (GCompareFunc) __compare_position);
+ if (boundary2_start == NULL) return -1;
+
+ boundary2_prev = g_list_previous(boundary2_start);
+ boundary2_next = g_list_next(boundary2_start);
+
+ if (boundary2_prev == NULL) boundary2_prev = g_list_last(bound2->polygon.position_list);
+ if (boundary2_next == NULL) boundary2_next = g_list_first(bound2->polygon.position_list);
+
+ boundary1_next = g_list_next(bound1->polygon.position_list);
+ if (boundary1_next != NULL && boundary2_prev != NULL &&
+ location_position_equal((LocationPosition *)boundary1_next->data, (LocationPosition *)boundary2_prev->data) == TRUE) {
+ boundary1_next = g_list_next(boundary1_next);
+ while (boundary1_next) {
+ boundary2_prev = g_list_previous(boundary2_prev);
+ if (boundary2_prev == NULL) boundary2_prev = g_list_last(bound2->polygon.position_list);
+ if (location_position_equal((LocationPosition *)boundary1_next->data, (LocationPosition *) boundary2_prev->data) == FALSE)
+ return -1;
- boundary1_next = g_list_next(bound1->polygon.position_list);
- if (boundary1_next != NULL && boundary2_prev != NULL &&
- location_position_equal((LocationPosition *)boundary1_next->data, (LocationPosition *)boundary2_prev->data) == TRUE) {
boundary1_next = g_list_next(boundary1_next);
- while (boundary1_next) {
- boundary2_prev = g_list_previous(boundary2_prev);
- if (boundary2_prev == NULL) boundary2_prev = g_list_last(bound2->polygon.position_list);
- if (location_position_equal((LocationPosition *)boundary1_next->data, (LocationPosition *) boundary2_prev->data) == FALSE) {
- return -1;
- }
- boundary1_next = g_list_next(boundary1_next);
- }
- ret = 0;
- } else if (boundary1_next != NULL && boundary2_next != NULL &&
- location_position_equal((LocationPosition *)boundary1_next->data, (LocationPosition *)boundary2_next->data) == TRUE) {
+ }
+ ret = 0;
+ } else if (boundary1_next != NULL && boundary2_next != NULL &&
+ location_position_equal((LocationPosition *)boundary1_next->data, (LocationPosition *)boundary2_next->data) == TRUE) {
+ boundary1_next = g_list_next(boundary1_next);
+ while (boundary1_next) {
+ boundary2_next = g_list_next(boundary2_next);
+ if (boundary2_next == NULL) boundary2_next = g_list_first(bound2->polygon.position_list);
+ if (location_position_equal((LocationPosition *)boundary1_next->data, (LocationPosition *) boundary2_next->data) == FALSE)
+ return -1;
+
boundary1_next = g_list_next(boundary1_next);
- while (boundary1_next) {
- boundary2_next = g_list_next(boundary2_next);
- if (boundary2_next == NULL) boundary2_next = g_list_first(bound2->polygon.position_list);
- if (location_position_equal((LocationPosition *)boundary1_next->data, (LocationPosition *) boundary2_next->data) == FALSE) {
- return -1;
- }
- boundary1_next = g_list_next(boundary1_next);
- }
- ret = 0;
- } else {
- return -1;
}
- break;
+ ret = 0;
+ } else {
+ return -1;
}
- default:
break;
+ }
+ default:
+ break;
}
}
return ret;
bounds = (location_bounds_s *)bounds_list->data;
if (__boundary_compare(boundary, bounds->boundary) == 0) {
LOCATIONS_LOGD("Find zone in boundary");
- if (bounds->user_cb) {
+ if (bounds->user_cb)
((location_bounds_state_changed_cb) bounds->user_cb)(LOCATIONS_BOUNDARY_IN, bounds->user_data);
- }
+
break;
}
bounds_list = g_list_next(bounds_list);
bounds = (location_bounds_s *)bounds_list->data;
if (__boundary_compare(boundary, bounds->boundary) == 0) {
LOCATIONS_LOGD("Find zone out boundary");
- if (bounds->user_cb) {
+ if (bounds->user_cb)
((location_bounds_state_changed_cb) bounds->user_cb)(LOCATIONS_BOUNDARY_OUT, bounds->user_data);
- }
+
break;
}
bounds_list = g_list_next(bounds_list);
return;
}
- if (_setting_changed[_method].callback != NULL) {
+ if (_setting_changed[_method].callback != NULL)
_setting_changed[_method].callback(_method, enable, _setting_changed[_method].user_data);
- }
}
/*/////////////////////////////////////// */
{
LOCATIONS_NOT_SUPPORTED_CHECK(__is_location_supported());
- if (LOCATIONS_METHOD_HYBRID > method || LOCATIONS_METHOD_MOCK < method) {
+ if (method < LOCATIONS_METHOD_HYBRID || method > LOCATIONS_METHOD_MOCK) {
LOCATIONS_LOGE("Not supported method [%d]", method);
return LOCATIONS_ERROR_INCORRECT_METHOD;
}
return LOCATIONS_ERROR_INCORRECT_METHOD;
return __convert_error_code(ret);
}
- if (is_enabled_val == -1) {
+ if (is_enabled_val == -1)
return TIZEN_ERROR_PERMISSION_DENIED;
- }
*enable = (is_enabled_val == 0) ? FALSE : TRUE;
return LOCATIONS_ERROR_NONE;
{
LOCATIONS_NOT_SUPPORTED_CHECK(__is_location_supported());
- if (LOCATIONS_METHOD_HYBRID > method || LOCATIONS_METHOD_MOCK < method) {
+ if (method < LOCATIONS_METHOD_HYBRID || method > LOCATIONS_METHOD_MOCK) {
LOCATIONS_LOGE("Not supported method [%d]", method);
return LOCATIONS_ERROR_INCORRECT_METHOD;
}
LOCATIONS_LOGE("LOCATIONS_ERROR_NOT_SUPPORTED(0x%08x) : fail to location feature", LOCATIONS_ERROR_NOT_SUPPORTED);
return LOCATIONS_ERROR_NOT_SUPPORTED;
}
+ } else if (method == LOCATIONS_METHOD_MOCK) {
+ if (__is_gps_supported() == LOCATIONS_ERROR_NOT_SUPPORTED) {
+ LOCATIONS_LOGE("LOCATIONS_ERROR_NOT_SUPPORTED(0x%08x) : fail to location feature", LOCATIONS_ERROR_NOT_SUPPORTED);
+ return LOCATIONS_ERROR_NOT_SUPPORTED;
+ }
}
LocationMethod _method = __convert_LocationMethod(method);
}
int ret = location_free(handle->object);
- if (ret != LOCATIONS_ERROR_NONE) {
+ if (ret != LOCATIONS_ERROR_NONE)
return __convert_error_code(ret);
- }
+
free(handle);
return LOCATIONS_ERROR_NONE;
}
if (!handle->sig_id[_LOCATION_SIGNAL_SERVICE_UPDATED])
handle->sig_id[_LOCATION_SIGNAL_SERVICE_UPDATED] = g_signal_connect(handle->object, "service-updated", G_CALLBACK(__cb_service_updated), handle);
- if (LOCATIONS_METHOD_HYBRID <= handle->method && LOCATIONS_METHOD_MOCK >= handle->method) {
+ if (handle->method >= LOCATIONS_METHOD_HYBRID && handle->method <= LOCATIONS_METHOD_MOCK) {
if (!handle->sig_id[_LOCATION_SIGNAL_ZONE_IN])
handle->sig_id[_LOCATION_SIGNAL_ZONE_IN] = g_signal_connect(handle->object, "zone-in", G_CALLBACK(__cb_zone_in), handle);
}
int ret = location_start(handle->object);
- if (ret != LOCATION_ERROR_NONE) {
+ if (ret != LOCATION_ERROR_NONE)
return __convert_error_code(ret);
- }
+
return LOCATIONS_ERROR_NONE;
}
handle->sig_id[_LOCATION_SIGNAL_LOCATION_UPDATED] = g_signal_connect(handle->object, "location-updated", G_CALLBACK(__cb_location_updated), handle);
ret = __set_callback(_LOCATIONS_EVENT_TYPE_LOCATION, manager, callback, user_data);
- if (ret != LOCATIONS_ERROR_NONE) {
+ if (ret != LOCATIONS_ERROR_NONE)
return ret;
- }
ret = location_request_single_location(handle->object, timeout);
- if (ret != LOCATION_ERROR_NONE) {
+ if (ret != LOCATION_ERROR_NONE)
return __convert_error_code(ret);
- }
+
return LOCATIONS_ERROR_NONE;
}
handle->sig_id[_LOCATION_SIGNAL_SERVICE_UPDATED] = 0;
}
- if (LOCATIONS_METHOD_HYBRID <= handle->method && LOCATIONS_METHOD_MOCK >= handle->method) {
+ if (handle->method >= LOCATIONS_METHOD_HYBRID && handle->method <= LOCATIONS_METHOD_MOCK) {
if (handle->sig_id[_LOCATION_SIGNAL_ZONE_IN]) {
g_signal_handler_disconnect(handle->object, handle->sig_id[_LOCATION_SIGNAL_ZONE_IN]);
handle->sig_id[_LOCATION_SIGNAL_ZONE_IN] = 0;
}
int ret = location_stop(handle->object);
- if (ret != LOCATION_ERROR_NONE) {
+ if (ret != LOCATION_ERROR_NONE)
return __convert_error_code(ret);
- }
+
return LOCATIONS_ERROR_NONE;
}
location_manager_s *handle = (location_manager_s *) manager;
location_bounds_s *bound_handle = (location_bounds_s *) bounds;
int ret = location_boundary_add(handle->object, bound_handle->boundary);
- if (ret != LOCATION_ERROR_NONE) {
+ if (ret != LOCATION_ERROR_NONE)
return __convert_error_code(ret);
- }
+
bound_handle->is_added = TRUE;
handle->bounds_list = g_list_append(handle->bounds_list, bound_handle);
return LOCATIONS_ERROR_NONE;
location_manager_s *handle = (location_manager_s *) manager;
location_bounds_s *bound_handle = (location_bounds_s *) bounds;
int ret = location_boundary_remove(handle->object, bound_handle->boundary);
- if (ret != LOCATION_ERROR_NONE) {
+ if (ret != LOCATION_ERROR_NONE)
return __convert_error_code(ret);
- }
+
handle->bounds_list = g_list_remove(handle->bounds_list, bound_handle);
bound_handle->is_added = FALSE;
return LOCATIONS_ERROR_NONE;
handle->user_data[_LOCATIONS_EVENT_TYPE_FOREACH_BOUNDS] = user_data;
handle->is_continue_foreach_bounds = TRUE;
int ret = location_boundary_foreach(handle->object, __foreach_boundary, handle);
- if (ret != LOCATION_ERROR_NONE) {
+ if (ret != LOCATION_ERROR_NONE)
return __convert_error_code(ret);
- }
+
return LOCATIONS_ERROR_NONE;
}
LocationMethod _method = LOCATION_METHOD_NONE;
g_object_get(handle->object, "method", &_method, NULL);
switch (_method) {
- case LOCATION_METHOD_NONE:
- *method = LOCATIONS_METHOD_NONE;
- break;
- case LOCATION_METHOD_HYBRID:
- *method = LOCATIONS_METHOD_HYBRID;
- break;
- case LOCATION_METHOD_GPS:
- *method = LOCATIONS_METHOD_GPS;
- break;
- case LOCATION_METHOD_WPS:
- *method = LOCATIONS_METHOD_WPS;
- break;
- case LOCATION_METHOD_MOCK:
- *method = LOCATIONS_METHOD_MOCK;
- break;
- default: {
- LOCATIONS_LOGE("LOCATIONS_ERROR_INVALID_PARAMETER(0x%08x) : Out of range (location_method_e) - method : %d ",
- LOCATIONS_ERROR_INVALID_PARAMETER, method);
- return LOCATIONS_ERROR_INVALID_PARAMETER;
- }
+ case LOCATION_METHOD_NONE:
+ *method = LOCATIONS_METHOD_NONE;
+ break;
+ case LOCATION_METHOD_HYBRID:
+ *method = LOCATIONS_METHOD_HYBRID;
+ break;
+ case LOCATION_METHOD_GPS:
+ *method = LOCATIONS_METHOD_GPS;
+ break;
+ case LOCATION_METHOD_WPS:
+ *method = LOCATIONS_METHOD_WPS;
+ break;
+ case LOCATION_METHOD_MOCK:
+ *method = LOCATIONS_METHOD_MOCK;
+ break;
+ default: {
+ LOCATIONS_LOGE("[LOCATIONS_ERROR_INVALID_PARAMETER] method : %d ", method);
+ return LOCATIONS_ERROR_INVALID_PARAMETER;
+ }
}
return LOCATIONS_ERROR_NONE;
}
LocationPosition *pos = NULL;
LocationAccuracy *acc = NULL;
ret = location_get_position(handle->object, &pos, &acc);
- if (ret != LOCATION_ERROR_NONE) {
+ if (ret != LOCATION_ERROR_NONE)
return __convert_error_code(ret);
- }
if (pos->status == LOCATION_STATUS_NO_FIX) {
return LOCATIONS_ERROR_SERVICE_NOT_AVAILABLE;
LocationVelocity *vel = NULL;
LocationAccuracy *acc = NULL;
ret = location_get_position_ext(handle->object, &pos, &vel, &acc);
- if (ret != LOCATION_ERROR_NONE) {
+ if (ret != LOCATION_ERROR_NONE)
return __convert_error_code(ret);
- }
if (pos->status == LOCATION_STATUS_NO_FIX) {
return __convert_error_code(LOCATION_ERROR_NOT_AVAILABLE);
LocationVelocity *vel = NULL;
LocationAccuracy *acc = NULL;
ret = location_get_velocity(handle->object, &vel, &acc);
- if (ret != LOCATION_ERROR_NONE) {
+ if (ret != LOCATION_ERROR_NONE)
return __convert_error_code(ret);
- }
*climb = vel->climb;
*direction = vel->direction;
LocationPosition *pos = NULL;
LocationAccuracy *acc = NULL;
ret = location_get_position(handle->object, &pos, &acc);
- if (ret != LOCATION_ERROR_NONE) {
+ if (ret != LOCATION_ERROR_NONE)
return __convert_error_code(ret);
- }
- if (acc == NULL) {
+ if (acc == NULL)
return __convert_error_code(LOCATION_ERROR_NOT_AVAILABLE);
- }
*level = acc->level;
*horizontal = acc->horizontal_accuracy;
LocationPosition *last_pos = NULL;
LocationAccuracy *last_acc = NULL;
ret = location_get_last_position(handle->object, &last_pos, &last_acc);
- if (ret != LOCATION_ERROR_NONE) {
+ if (ret != LOCATION_ERROR_NONE)
return __convert_error_code(ret);
- }
if (last_pos->status == LOCATION_STATUS_NO_FIX) {
return LOCATIONS_ERROR_SERVICE_NOT_AVAILABLE;
LocationVelocity *last_vel = NULL;
LocationAccuracy *last_acc = NULL;
ret = location_get_last_position_ext(handle->object, &last_pos, &last_vel, &last_acc);
- if (ret != LOCATION_ERROR_NONE) {
+ if (ret != LOCATION_ERROR_NONE)
return __convert_error_code(ret);
- }
if (last_pos->status == LOCATION_STATUS_NO_FIX) {
return LOCATIONS_ERROR_SERVICE_NOT_AVAILABLE;
LocationVelocity *last_vel = NULL;
LocationAccuracy *last_acc = NULL;
ret = location_get_last_velocity(handle->object, &last_vel, &last_acc);
- if (ret != LOCATION_ERROR_NONE) {
+ if (ret != LOCATION_ERROR_NONE)
return __convert_error_code(ret);
- }
*climb = last_vel->climb;
*direction = last_vel->direction;
LocationPosition *last_pos = NULL;
LocationAccuracy *last_acc = NULL;
ret = location_get_last_position(handle->object, &last_pos, &last_acc);
- if (ret != LOCATION_ERROR_NONE) {
+ if (ret != LOCATION_ERROR_NONE)
return __convert_error_code(ret);
- }
*level = last_acc->level;
*horizontal = last_acc->horizontal_accuracy;
}
switch (auth) {
- case LOCATION_ACCESS_DENIED:
- *state = LOCATIONS_ACCESS_STATE_DENIED;
- break;
- case LOCATION_ACCESS_ALLOWED:
- *state = LOCATIONS_ACCESS_STATE_ALLOWED;
- break;
- case LOCATION_ACCESS_NONE:
- default:
- *state = LOCATIONS_ACCESS_STATE_NONE;
- break;
+ case LOCATION_ACCESS_DENIED:
+ *state = LOCATIONS_ACCESS_STATE_DENIED;
+ break;
+ case LOCATION_ACCESS_ALLOWED:
+ *state = LOCATIONS_ACCESS_STATE_ALLOWED;
+ break;
+ case LOCATION_ACCESS_NONE:
+ default:
+ *state = LOCATIONS_ACCESS_STATE_NONE;
+ break;
}
return LOCATIONS_ERROR_NONE;
LocationMethod _method = __convert_LocationMethod(method);
int ret = LOCATION_ERROR_NONE;
- if (_method == LOCATION_METHOD_NONE) {
+ if (_method == LOCATION_METHOD_NONE)
return __convert_error_code(LOCATION_ERROR_PARAMETER);
- }
g_location_setting[_method].callback = callback;
g_location_setting[_method].user_data = user_data;
ret = location_add_setting_notify(_method, __setting_changed_cb, &g_location_setting);
- if (ret != LOCATION_ERROR_NONE) {
+ if (ret != LOCATION_ERROR_NONE)
return __convert_error_code(ret);
- }
return LOCATIONS_ERROR_NONE;
}
LocationMethod _method = __convert_LocationMethod(method);
int ret = LOCATION_ERROR_NONE;
- if (_method == LOCATION_METHOD_NONE) {
+ if (_method == LOCATION_METHOD_NONE)
return __convert_error_code(LOCATION_ERROR_PARAMETER);
- }
ret = location_ignore_setting_notify(_method, __setting_changed_cb);
if (ret != LOCATION_ERROR_NONE) {
LocationPosition *end = location_position_new(0, end_latitude, end_longitude, 0, LOCATION_STATUS_2D_FIX);
ret = location_get_distance(start, end, &u_distance);
- if (ret != LOCATION_ERROR_NONE) {
+ if (ret != LOCATION_ERROR_NONE)
return __convert_error_code(ret);
- }
*distance = (double)u_distance;
LOCATIONS_NULL_ARG_CHECK(callback);
location_manager_s *handle = (location_manager_s *) manager;
- location_set_option(handle->object, "USE_SV");
+ int ret = location_set_option(handle->object, "USE_SV");
+ if (ret != LOCATION_ERROR_NONE) {
+ if (ret == LOCATION_ERROR_NOT_ALLOWED) {
+ LOCATIONS_LOGE("LOCATIONS_ERROR_ACCESSIBILITY_NOT_ALLOWED");
+ return LOCATIONS_ERROR_ACCESSIBILITY_NOT_ALLOWED;
+ }
+ return ret;
+ }
g_object_set(handle->object, "sat-interval", interval, NULL);
return __set_callback(_LOCATIONS_EVENT_TYPE_SATELLITE, manager, callback, user_data);
}
guint azimuth;
gint snr;
location_satellite_get_satellite_details(last_sat, i, &prn, &used, &elevation, &azimuth, &snr);
- if (callback(azimuth, elevation, prn, snr, used, user_data) != TRUE) {
+ if (callback(azimuth, elevation, prn, snr, used, user_data) != TRUE)
break;
- }
}
location_satellite_free(last_sat);
return LOCATIONS_ERROR_NONE;
/**
* Tizen 3.0
*/
+EXPORT_API int location_manager_set_location_batch_cb(location_manager_h manager, location_batch_cb callback, int batch_interval, int batch_period, void *user_data)
+{
+ LOCATIONS_LOGD("location_manager_set_location_batch_cb");
+ LOCATIONS_NOT_SUPPORTED_CHECK(__is_batch_supported());
+
+ LOCATIONS_CHECK_CONDITION(batch_interval >= 1 && batch_interval <= 255, LOCATIONS_ERROR_INVALID_PARAMETER, "LOCATIONS_ERROR_INVALID_PARAMETER");
+ LOCATIONS_CHECK_CONDITION(batch_period >= 1 && batch_period <= 60000, LOCATIONS_ERROR_INVALID_PARAMETER, "LOCATIONS_ERROR_INVALID_PARAMETER");
+ LOCATIONS_CHECK_CONDITION(batch_interval <= batch_period, LOCATIONS_ERROR_INVALID_PARAMETER, "LOCATIONS_ERROR_INVALID_PARAMETER");
+ LOCATIONS_NULL_ARG_CHECK(manager);
+ LOCATIONS_NULL_ARG_CHECK(callback);
+ location_manager_s *handle = (location_manager_s *) manager;
+ g_object_set(handle->object, "batch-period", batch_period, NULL);
+ g_object_set(handle->object, "batch-interval", batch_interval, NULL);
+ return __set_callback(_LOCATIONS_EVENT_TYPE_BATCH, manager, callback, user_data);
+}
+
+EXPORT_API int location_manager_unset_location_batch_cb(location_manager_h manager)
+{
+ LOCATIONS_LOGD("location_manager_unset_location_batch_cb");
+ LOCATIONS_NOT_SUPPORTED_CHECK(__is_batch_supported());
+ return __unset_callback(_LOCATIONS_EVENT_TYPE_BATCH, manager);
+}
+
+EXPORT_API int location_manager_start_batch(location_manager_h manager)
+{
+ LOCATIONS_LOGD("location_manager_start_batch");
+ LOCATIONS_NOT_SUPPORTED_CHECK(__is_batch_supported());
+ LOCATIONS_NULL_ARG_CHECK(manager);
+ location_manager_s *handle = (location_manager_s *) manager;
+
+ if (LOCATIONS_METHOD_GPS == handle->method) {
+ if (!handle->sig_id[_LOCATION_SIGNAL_BATCH_UPDATED])
+ handle->sig_id[_LOCATION_SIGNAL_BATCH_UPDATED] = g_signal_connect(handle->object, "batch-updated", G_CALLBACK(__cb_batch_updated), handle);
+ } else {
+ LOCATIONS_LOGE("method is not GPS [LOCATIONS_ERROR_INCORRECT_METHOD]");
+ return LOCATIONS_ERROR_INCORRECT_METHOD;
+ }
+
+ if (handle->user_cb[_LOCATIONS_EVENT_TYPE_BATCH] != NULL)
+ LOCATIONS_LOGD("batch status set : Start");
+
+ int ret = location_start_batch(handle->object);
+ if (ret != LOCATION_ERROR_NONE)
+ return __convert_error_code(ret);
+
+ return LOCATIONS_ERROR_NONE;
+}
+
+EXPORT_API int location_manager_stop_batch(location_manager_h manager)
+{
+ LOCATIONS_LOGD("location_manager_stop_batch");
+ LOCATIONS_NOT_SUPPORTED_CHECK(__is_batch_supported());
+ LOCATIONS_NULL_ARG_CHECK(manager);
+ location_manager_s *handle = (location_manager_s *) manager;
+
+ if (LOCATIONS_METHOD_GPS == handle->method) {
+ if (handle->sig_id[_LOCATION_SIGNAL_BATCH_UPDATED]) {
+ g_signal_handler_disconnect(handle->object, handle->sig_id[_LOCATION_SIGNAL_BATCH_UPDATED]);
+ handle->sig_id[_LOCATION_SIGNAL_BATCH_UPDATED] = 0;
+ }
+ }
+
+ int ret = location_stop_batch(handle->object);
+ if (ret != LOCATION_ERROR_NONE)
+ return __convert_error_code(ret);
+
+ return LOCATIONS_ERROR_NONE;
+}
+
+EXPORT_API int location_manager_foreach_location_batch(location_manager_h manager, location_batch_get_location_cb callback, void *user_data)
+{
+ LOCATIONS_LOGD("location_manager_foreach_location_batch");
+ LOCATIONS_NOT_SUPPORTED_CHECK(__is_batch_supported());
+ LOCATIONS_NULL_ARG_CHECK(manager);
+ LOCATIONS_NULL_ARG_CHECK(callback);
+ location_manager_s *handle = (location_manager_s *) manager;
+ LocationBatch *batch = NULL;
+
+ int ret = location_get_batch(handle->object, &batch);
+ if (ret != LOCATION_ERROR_NONE || batch == NULL) {
+ if (ret == LOCATION_ERROR_NOT_ALLOWED) {
+ LOCATIONS_LOGE("LOCATIONS_ERROR_ACCESSIBILITY_NOT_ALLOWED");
+ return LOCATIONS_ERROR_ACCESSIBILITY_NOT_ALLOWED;
+ }
+
+ LOCATIONS_LOGE("Batch is NULL [LOCATIONS_ERROR_SERVICE_NOT_AVAILABLE]");
+ return LOCATIONS_ERROR_SERVICE_NOT_AVAILABLE;
+ }
+
+ int i;
+ for (i = 0; i < batch->num_of_location; i++) {
+ gdouble latitude;
+ gdouble longitude;
+ gdouble altitude;
+ gdouble speed;
+ gdouble direction;
+ gdouble h_accuracy;
+ gdouble v_accuracy;
+ guint timestamp;
+
+ location_get_batch_details(batch, i, &latitude, &longitude, &altitude, &speed, &direction, &h_accuracy, &v_accuracy, ×tamp);
+ if (callback(latitude, longitude, altitude, speed, direction, h_accuracy, v_accuracy, timestamp, user_data) != TRUE)
+ break;
+ }
+ location_batch_free(batch);
+ batch = NULL;
+ return LOCATIONS_ERROR_NONE;
+}
+
EXPORT_API int location_manager_enable_mock_location(const bool enable)
{
LOCATIONS_LOGD("enable: %d", enable);
ret = location_is_enabled_method(LOCATION_METHOD_MOCK, &enabled);
LOCATIONS_LOGD("enable: %d, ret: %d", enabled, ret);
if (ret == LOCATIONS_ERROR_NONE) {
- if (enabled == 0) {
+ if (enabled == 0)
return __convert_error_code(LOCATION_ERROR_SETTING_OFF);
- }
-
} else {
return __convert_error_code(ret);
}
vel = location_velocity_new(0, speed, direction, 0);
if (!vel) {
LOCATIONS_LOGE("Failed to create volocity");
+ location_position_free(pos);
return LOCATIONS_ERROR_OUT_OF_MEMORY;
}
acc = location_accuracy_new(LOCATION_ACCURACY_LEVEL_DETAILED, accuracy, -1);
- if (!vel) {
+ if (!acc) {
LOCATIONS_LOGE("Failed to create accuracy");
+ location_position_free(pos);
+ location_velocity_free(vel);
return LOCATIONS_ERROR_OUT_OF_MEMORY;
}
ret = location_set_mock_location(handle->object, pos, vel, acc);
+
+ location_position_free(pos);
+ location_velocity_free(vel);
+ location_accuracy_free(acc);
+
return __convert_error_code(ret);
}
ret = location_is_enabled_method(LOCATION_METHOD_MOCK, &enabled);
if (ret == LOCATIONS_ERROR_NONE) {
- if (enabled == 0) {
+ if (enabled == 0)
return __convert_error_code(LOCATION_ERROR_SETTING_OFF);
- }
} else {
return __convert_error_code(ret);
}
ret = location_clear_mock_location(handle->object);
return __convert_error_code(ret);
}
-
-
-#if 0
-/**
- * @brief Gets the state of location service.
- * @since_tizen 3.0
- * @param[in] manager The location manager handle
- * @param[out] state The current state of location service
- * @return 0 on success, otherwise a negative error value
- * @retval #LOCATIONS_ERROR_NONE Successful
- * @retval #LOCATIONS_ERROR_INVALID_PARAMETER Invalid parameter
- * @retval #LOCATIONS_ERROR_NOT_SUPPORTED Not supported
- * @see location_manager_create()
- * @see location_manager_set_setting_changed_cb()
- * @see location_manager_unset_setting_changed_cb()
- */
-int location_manager_get_service_state(location_manager_h manager, location_service_state_e *state);
-
-EXPORT_API int location_manager_get_service_state(location_manager_h manager, location_service_state_e *state)
-{
- LOCATIONS_NOT_SUPPORTED_CHECK(__is_location_supported());
- LOCATIONS_NULL_ARG_CHECK(manager);
- LOCATIONS_NULL_ARG_CHECK(state);
-
- location_manager_s *handle = (location_manager_s *) manager;
-
- int service_state = -1;
-
- int ret = location_get_service_state(handle->object, &service_state);
- if (ret != LOCATION_ERROR_NONE) {
- if (ret == LOCATION_ERROR_NOT_SUPPORTED)
- return LOCATIONS_ERROR_INCORRECT_METHOD;
- return __convert_error_code(ret);
- }
-
- switch (service_state) {
- case -1:
- ret = LOCATIONS_ERROR_SERVICE_NOT_AVAILABLE;
- *state = LOCATIONS_SERVICE_DISABLED;
- break;
- case 0:
- *state = LOCATIONS_SERVICE_DISABLED;
- break;
- case 1:
- *state = LOCATIONS_SERVICE_ENABLED;
- break;
- default:
- *state = LOCATIONS_SERVICE_ERROR;
- break;
-
- }
-
- return ret;
-}
-
-EXPORT_API int location_add_test_provider(const LocationMethod method, const int enable)
-{
- int ret = 0;
- char *_key = NULL;
-
-#ifndef TIZEN_PROFILE_TV
- ret = location_check_privilege(LOCATION_ENABLE_PRIVILEGE);
- if (ret != LOCATION_ERROR_NONE) {
- LOCATION_LOGE("Cannot use location service for privacy[%d]", ret);
- return LOCATION_ERROR_NOT_ALLOWED;
- }
-#endif
-
- if (method == LOCATION_METHOD_MOCK) {
- _key = __convert_setting_key(method);
- if (!_key) {
- LOCATION_LOGE("Invalid method[%d]", method);
- return LOCATION_ERROR_NOT_SUPPORTED;
- }
- ret = vconf_set_int(_key, enable);
- if (ret != VCONF_OK) {
- LOCATION_SECLOG("vconf_set_int failed [%s], ret=[%d]", _key, ret);
- g_free(_key);
- return LOCATION_ERROR_NOT_ALLOWED;
- }
-
- g_free(_key);
- }
- return ret;
-}
-#endif