event_info.m_cb = cb;
event_info.m_user_data = user_data;
- m_reg_event_infos.insert(pair<unsigned int, reg_event_info> (event_type, event_info));
+ m_reg_event_infos.insert(pair<unsigned int, reg_event_info>(event_type, event_info));
return true;
}
DEPRECATED int sf_stop(int handle);
/**
- * @fn int sf_register_event(int handle, unsigned int event_type, event_conditon_t *event_condition, sensor_callback_func_t cb, void *user_data )
+ * @fn int sf_register_event(int handle, unsigned int event_type, event_conditon_t *event_condition, sensor_callback_func_t cb, void *user_data)
* @brief This API registers a user defined callback function with a connected sensor for a particular event. This callback function will be called when there is a change in the state of respective sensor. user_data will be the parameter used during the callback call. Callback interval can be adjusted using even_contion_t argument.
* @param[in] handle received handle value by sf_connect()
* @param[in] event_type your desired event_type to register it
client_record.set_client_id(client_id);
- m_clients.insert(pair<int, client_sensor_record> (client_id, client_record));
+ m_clients.insert(pair<int, client_sensor_record>(client_id, client_record));
return client_id;
}
{
vector<sensor_base *> sensors;
- sensor_type_t type = static_cast<sensor_type_t> (id >> SENSOR_TYPE_SHIFT);
+ sensor_type_t type = static_cast<sensor_type_t>(id >> SENSOR_TYPE_SHIFT);
unsigned int index = (id & SENSOR_INDEX_MASK);
sensors = get_sensors(type);
{
auto it_event = find(m_reg_events.begin(), m_reg_events.end(), event_type);
- if (it_event == m_reg_events.end()){
+ if (it_event == m_reg_events.end()) {
_D("Event[%#x] is not registered", event_type);
return false;
}
memcpy(&m_addr, &sock.m_addr, sizeof(sockaddr_un));
}
-csocket::~csocket() { }
+csocket::~csocket()
+{
+}
bool csocket::create(int sock_type)
{