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module_traffic_light_manager.h 7.9 KB

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  1. #ifndef module_traffic_light_manager_h
  2. #define module_traffic_light_manager_h
  3. #include <thread>
  4. #include <functional>
  5. #include "module_traffic_light.h"
  6. #include "module_traffic_light_rule.h"
  7. #include "db_api/CDBCommon.h"
  8. #include "geo_hash.h"
  9. #include "log.h"
  10. #include "websocket/sio/sio_client.h"
  11. #include "common_tool.h"
  12. #include "crc.h"
  13. #include "protocol.h"
  14. #include "websocket/wsTimerThread.h"
  15. // 红绿灯管理
  16. struct traffic_light_manager{
  17. private:
  18. ~traffic_light_manager()
  19. {
  20. stop();
  21. }
  22. public:
  23. static traffic_light_manager* instance();
  24. // 从数据库加载数据
  25. void init_light_from_db(int lid = 0);
  26. void init_light_group_from_db(int gid = 0);
  27. void init_light_group_path();
  28. void init_map(int id = 0);
  29. // 初始化回调信息
  30. void init(const int& lgc);
  31. // 开启
  32. void start();
  33. // 关闭
  34. void stop();
  35. // 运行
  36. void run();
  37. // 信息处理
  38. void put(const light_message& msg);
  39. // 重新加载红绿灯信息
  40. void handle_reload(const int& gid, const int& lid);
  41. int reload_light(const int& lid);
  42. int reload_group(const int& gid);
  43. // 手动控制红绿灯信息
  44. void manual_ctrl(sio::message::ptr const& data);
  45. void set_manual(light_message& msg);
  46. void cancel_manual(light_message& msg);
  47. void handle_manual(const int& gid, const int& ld, const std::string& name, const int& lc);
  48. // 卡数据
  49. void handle_position(pos_data& p);
  50. traffic_light_ptr get(const int& id)
  51. {
  52. return find_light(id);
  53. }
  54. //查找红绿灯
  55. traffic_light_ptr find_light(const int k)
  56. {
  57. hashmap_light::iterator it = m_unmap_lights.find(k);
  58. if(it != m_unmap_lights.end())
  59. {
  60. return it->second;
  61. }
  62. return nullptr;
  63. }
  64. // 查找红绿灯组
  65. traffic_light_group_ptr find_group(const int k)
  66. {
  67. hashmap_group::iterator it = m_unmap_groups.find(k);
  68. if(it != m_unmap_groups.end())
  69. {
  70. return it->second;
  71. }
  72. return nullptr;
  73. }
  74. std::vector<traffic_light_group_ptr> find_stream_groups(traffic_light_group_ptr, const move_stream& stream);
  75. // 更新红绿灯数据
  76. void update_light(const int& key, traffic_light_ptr ptl);
  77. // 更新红绿灯组数据
  78. void update_group(const int& key, traffic_light_group_ptr ptlg);
  79. // 查找附近的车
  80. std::vector<uint64_t> find_nearby_vehicle(const point& p,const int& dist, const uint64_t& card_id)
  81. {
  82. return m_geo_list.find_near(p.x, p.y, dist, card_id);
  83. }
  84. pos_data* get_position(const uint64_t& cid)
  85. {
  86. std::map<uint64_t, pos_data>::iterator it = m_map_card.find(cid);
  87. if(it == m_map_card.end())
  88. {
  89. log_error("[traffic_light] 找不到卡,card_id=%lld", cid);
  90. return nullptr;
  91. }
  92. return &(it->second);
  93. }
  94. void update(int x, int y, uint64_t cid)
  95. {
  96. m_geo_list.update(x, y, cid);
  97. }
  98. void vtlg_insert(const uint64_t& cid, traffic_light_group_ptr& group)
  99. {
  100. std::lock_guard<std::mutex> lg(m_vtlg_mutex);
  101. auto it = m_vehicle_traffic_groups.find(cid);
  102. if(it == m_vehicle_traffic_groups.end()){
  103. m_vehicle_traffic_groups.insert(std::make_pair(cid, std::list<traffic_light_group_ptr>()));
  104. it = m_vehicle_traffic_groups.find(cid);
  105. }
  106. if(it->second.size() >= m_light_group_ctrl_num){
  107. auto itg = it->second.front();
  108. itg->reset();
  109. it->second.pop_front();
  110. }
  111. it->second.push_back(group);
  112. }
  113. void vtlg_erase(const uint64_t& cid, traffic_light_group_ptr& group)
  114. {
  115. std::lock_guard<std::mutex> lg(m_vtlg_mutex);
  116. auto it = m_vehicle_traffic_groups.find(cid);
  117. if(it != m_vehicle_traffic_groups.end()){
  118. for(auto it_g = it->second.begin(); it_g != it->second.end();++it_g){
  119. if((*it_g)->m_group_id == group->m_group_id){
  120. group->reset();
  121. it->second.erase(it_g);
  122. break;
  123. }
  124. }
  125. }
  126. }
  127. bool vtlg_exist(const uint64_t& cid, const int& gid)
  128. {
  129. auto it = m_vehicle_traffic_groups.find(cid);
  130. if(it == m_vehicle_traffic_groups.end()){
  131. return false;
  132. }
  133. for(auto it_g = it->second.begin(); it_g != it->second.end();++it_g){
  134. if((*it_g)->m_group_id == gid){
  135. return true;
  136. }
  137. }
  138. return false;
  139. }
  140. bool vtlg_exist(const int& gid)
  141. {
  142. bool ret = false;
  143. for(auto it : m_vehicle_traffic_groups)
  144. {
  145. if(vtlg_exist(it.first, gid)){
  146. ret = true;
  147. break;
  148. }
  149. }
  150. return ret;
  151. }
  152. int vtlg_size(const uint64_t& cid)
  153. {
  154. auto it = m_vehicle_traffic_groups.find(cid);
  155. if(it == m_vehicle_traffic_groups.end()){
  156. return 0;
  157. }
  158. return it->second.size();
  159. }
  160. bool send_light_data(const int& light_id, const int& type, const int& shape){
  161. std::vector<char> msg;
  162. uint16_t cmd = THIRD_PARTY_CHAR_LIGHT_SETUP_STATE;
  163. tool_other::memcpy_int<uint16_t>(msg, cmd);
  164. tool_other::memcpy_int<uint32_t>(msg, light_id);
  165. msg.push_back(0x05);
  166. msg.push_back(static_cast<char>(shape));
  167. int16_t len = msg.size() + 2;
  168. int16_t crc = do_crc_1(msg, 0);
  169. auto it = msg.begin();
  170. msg.insert(it, len&0xff);
  171. it = msg.begin();
  172. msg.insert(it, (len>>8)&0xff);
  173. tool_other::memcpy_int<int16_t>(msg, crc);
  174. auto light_ptr = get(light_id);
  175. log_info("[light_info] ctrl light, light_id=%d, message's length=%d, light_ptr exist=%s", light_id, msg.size(), (light_ptr==nullptr)?"empty":"yes");
  176. std::vector<char> m = msg;
  177. output_message(std::move(m), light_id);
  178. if(light_ptr && light_ptr->m_clt){
  179. light_ptr->m_clt->send(std::move(msg));
  180. }
  181. return true;
  182. }
  183. void output_message(std::vector<char>&& msg, int light_id)
  184. {
  185. std::string s("红绿灯控制的数据帧,灯号=");
  186. s.append(std::to_string(light_id));
  187. s.append(":");
  188. char a[4] = {0};
  189. for(std::vector<char>::size_type i = 0;i < msg.size(); ++i){
  190. sprintf(a, "%02X ", static_cast<unsigned char>(msg[i]));
  191. s.append(std::string(a));
  192. }
  193. log_info("%s", s.c_str());
  194. }
  195. void output_upstreamidx()
  196. {
  197. std::string msg = "红绿灯上行排序顺序(灯组id, 排序索引):";
  198. for(auto it : m_map_groups){
  199. char buf[20] = {0};
  200. sprintf(buf, "(%d,%d)", it.second->m_group_id, it.first);
  201. msg.append(std::string(buf));
  202. }
  203. log_info("%s", msg.c_str());
  204. }
  205. int remove_light(const int& id);
  206. int remove_light_group(const int& id);
  207. void set_scale(const double& scale)
  208. {
  209. m_map_scale = scale;
  210. }
  211. double get_scale()
  212. {
  213. return m_map_scale;
  214. }
  215. std::string get_light_state();
  216. bool on_path(const std::vector<pos_data>& vtp, const point& p);
  217. void visit_light_status();
  218. private:
  219. bool m_stop;
  220. double m_map_scale = 0.0;
  221. unsigned int m_light_group_ctrl_num{0}; // 控制红绿灯组数
  222. std::list<light_message> m_list_data;
  223. std::mutex m_mutex;
  224. std::mutex m_vtlg_mutex;
  225. std::condition_variable m_condition;
  226. std::unique_ptr<std::thread> m_thread_light;
  227. std::unique_ptr<crossing_rule> m_crossing_rule; // 路口规则
  228. std::unique_ptr<avoidance_rule> m_avoidance_rule; // 避让规则
  229. geo_list m_geo_list;
  230. hashmap_light m_unmap_lights;
  231. hashmap_group m_unmap_groups;
  232. map_group m_map_groups;
  233. std::map<uint64_t, pos_data> m_map_card;
  234. std::map<int, std::vector<line_v>> m_map_path;
  235. std::map<uint64_t, std::list<traffic_light_group_ptr>> m_vehicle_traffic_groups;
  236. sys::jsonBuilder m_jsBuilder;//json构造器类
  237. };
  238. #endif