// // Created by huli on 2020/7/20. // #include "dispatch_manager.h" #include "../tool/proto_tool.h" #include Dispatch_manager::Dispatch_manager() { m_dispatch_manager_status = E_DISPATCH_MANAGER_UNKNOW; m_dispatch_manager_id = -1; m_catcher_size = 0; m_carrier_size = 0; m_passageway_size = 0; m_process_thread_queue = nullptr; m_dispatch_manager_thread = nullptr; } Dispatch_manager::~Dispatch_manager() { dispatch_manager_uninit(); } //调度管理初始化 Error_manager Dispatch_manager::dispatch_manager_init(int dispatch_manager_id) { m_dispatch_manager_id = dispatch_manager_id; return dispatch_manager_init_from_protobuf(DISPATCH_DEVICE_PARAMETER_PATH); } //调度管理初始化 Error_manager Dispatch_manager::dispatch_manager_init() { return dispatch_manager_init_from_protobuf(DISPATCH_DEVICE_PARAMETER_PATH); } //初始化调度管理模块。从文件读取 Error_manager Dispatch_manager::dispatch_manager_init_from_protobuf(std::string prototxt_path) { Dispatch_proto::Dispatch_device_parameter_all t_dispatch_device_parameter_all; if(! proto_tool::read_proto_param(prototxt_path,t_dispatch_device_parameter_all) ) { return Error_manager(DISPATCH_MANAGER_READ_PROTOBUF_ERROR,MINOR_ERROR, "Dispatch_manager read_proto_param failed"); } return dispatch_manager_init_from_protobuf(t_dispatch_device_parameter_all); } //初始化调度管理模块。从protobuf读取 Error_manager Dispatch_manager::dispatch_manager_init_from_protobuf(Dispatch_proto::Dispatch_device_parameter_all& dispatch_device_parameter_all) { LOG(INFO) << " ----Dispatch_manager::dispatch_manager_init_from_protobuf----- "<< this; Error_manager t_error; m_catcher_size = dispatch_device_parameter_all.catcher_parameters_size(); for (int i = 0; i < m_catcher_size; ++i) { std::shared_ptr tp_dispatch_device_base(new Catcher); Catcher* tp_catcher = (Catcher*)tp_dispatch_device_base.get(); int t_id = dispatch_device_parameter_all.catcher_parameters(i).id(); int t_key = dispatch_device_parameter_all.catcher_parameters(i).key(); tp_catcher->dispatch_device_base_init(t_id, t_key); m_catcher_map[t_id] = tp_dispatch_device_base; } m_carrier_size = dispatch_device_parameter_all.carrier_parameters_size(); for (int i = 0; i < m_carrier_size; ++i) { std::shared_ptr tp_dispatch_device_base(new Carrier); Carrier* tp_carrier = (Carrier*)tp_dispatch_device_base.get(); int t_id = dispatch_device_parameter_all.carrier_parameters(i).id(); int t_key = dispatch_device_parameter_all.carrier_parameters(i).key(); tp_carrier->dispatch_device_base_init(t_id, t_key); m_carrier_map[t_id] = tp_dispatch_device_base; } m_passageway_size = dispatch_device_parameter_all.passageway_parameters_size(); for (int i = 0; i < m_passageway_size; ++i) { std::shared_ptr tp_dispatch_device_base(new Passageway); Passageway* tp_passageway = (Passageway*)tp_dispatch_device_base.get(); int t_id = dispatch_device_parameter_all.passageway_parameters(i).id(); int t_key = dispatch_device_parameter_all.passageway_parameters(i).key(); tp_passageway->dispatch_device_base_init(t_id, t_key); m_passageway_map[t_id] = tp_dispatch_device_base; } //调度管理设备复位 t_error = dispatch_manager_device_reset(); if ( t_error != Error_code::SUCCESS ) { return t_error; } //创建线程池 if (m_process_thread_queue == nullptr) { m_process_thread_queue = tq::TQFactory::CreateDefaultQueue(); m_process_thread_queue->Start(48); } // 线程默认开启 m_dispatch_manager_condition.reset(false, true, false); m_dispatch_manager_thread = new std::thread(&Dispatch_manager::resource_allocation, this); m_dispatch_manager_status = E_DISPATCH_MANAGER_READY; return Error_code::SUCCESS; } //调度管理反初始化 Error_manager Dispatch_manager::dispatch_manager_uninit() { if (m_dispatch_manager_thread) { m_dispatch_manager_condition.kill_all(); } if (m_dispatch_manager_thread) { m_dispatch_manager_thread->join(); delete m_dispatch_manager_thread; m_dispatch_manager_thread = NULL; } //等待线程池完成 if(m_process_thread_queue!=nullptr) { m_process_thread_queue->WaitForFinish(); m_process_thread_queue->Stop(); m_process_thread_queue = nullptr; } m_dispatch_manager_status = E_DISPATCH_MANAGER_UNKNOW; m_dispatch_manager_id = -1; return Error_code::SUCCESS; } //调度管理设备复位 Error_manager Dispatch_manager::dispatch_manager_device_reset() { //以后再写 return Error_code::SUCCESS; } //对外的接口函数，负责接受并处理任务单， Error_manager Dispatch_manager::execute_task(Dispatch_manager::Dispatch_motion_direction dispatch_motion_direction) { return Error_code::SUCCESS; // std::this_thread::sleep_for(std::chrono::seconds(rand()%3+3)); if ( dispatch_motion_direction == E_PICKUP_CAR ) { return Error_code::SUCCESS; } // return Error_code::SUCCESS; // srand(0); unsigned int t_probability = rand(); if ( t_probability%100 >=20 ) { return Error_code::SUCCESS; } else { return Error_manager(Error_code::ERROR, Error_level::MINOR_ERROR, " Dispatch_manager::execute_task() error "); } } //检查能否执行消息指令 Error_manager Dispatch_manager::check_execute_msg(Communication_message* p_msg) { Error_manager t_error = Dispatch_manager::get_instance_references().check_status(); if ( t_error == Error_code::SUCCESS ) { return Error_code::SUCCESS; } else if (t_error.get_error_level() == NEGLIGIBLE_ERROR)//一级故障,轻微故障, { std::cout << "Dispatch_manager _is_busy , " << std::endl; //返回繁忙之后, 通信模块1秒后再次调用check return Error_code::COMMUNICATION_EXCUTER_IS_BUSY; } switch ( p_msg->get_message_type() ) { case Communication_message::Message_type::eDispatch_request_msg: { message::Dispatch_request_msg t_dispatch_request_msg; //针对消息类型, 对消息进行二次解析 if (t_dispatch_request_msg.ParseFromString(p_msg->get_message_buf())) { //创建一条答复消息 message::Dispatch_response_msg t_dispatch_response_msg; t_dispatch_response_msg.mutable_base_info()->set_msg_type(message::Message_type::eDispatch_response_msg); t_dispatch_response_msg.mutable_base_info()->set_timeout_ms(5000); t_dispatch_response_msg.mutable_base_info()->set_sender(message::Communicator::eDispatch_manager); t_dispatch_response_msg.mutable_base_info()->set_receiver(message::Communicator::eMain); t_dispatch_response_msg.set_command_key(t_dispatch_request_msg.command_key()); t_dispatch_response_msg.mutable_error_manager()->set_error_code(t_error.get_error_code()); t_dispatch_response_msg.mutable_error_manager()->set_error_level((message::Error_level)t_error.get_error_level()); t_dispatch_response_msg.mutable_error_manager()->set_error_description(t_error.get_error_description()); std::string t_msg = t_dispatch_response_msg.SerializeAsString(); System_communication::get_instance_references().encapsulate_msg(t_msg); LOG(INFO) << " System_executor::check_execute_msg executer status error "<< this; return t_error; } else { LOG(INFO) << " System_executor::check_executer Second analysis ERROR "<< this; return Error_manager(Error_code::SYSTEM_EXECUTOR_PARSE_ERROR, Error_level::MINOR_ERROR, " message::Measure_request_msg ParseFromString error "); } } case Communication_message::Message_type::eDispatch_plan_response_msg: { return Error_code::SUCCESS; break; } case Communication_message::Message_type::eDispatch_control_request_msg: { return Error_code::SUCCESS; break; } default : //无效的消息, return Error_manager(Error_code::INVALID_MESSAGE, Error_level::NEGLIGIBLE_ERROR, " INVALID_MESSAGE error "); break; } } //检查状态 Error_manager Dispatch_manager::check_status() { if ( m_dispatch_manager_status == E_DISPATCH_MANAGER_READY ) { return Error_code::SUCCESS; } else if ( m_dispatch_manager_status == E_DISPATCH_MANAGER_STORE || m_dispatch_manager_status == E_DISPATCH_MANAGER_STORE ) { return Error_manager(Error_code::DISPATCH_MANAGER_STATUS_BUSY, Error_level::NEGLIGIBLE_ERROR, " Dispatch_manager::check_status() error "); } else { return Error_manager(Error_code::DISPATCH_MANAGER_STATUS_ERROR, Error_level::MINOR_ERROR, " Dispatch_manager::check_status() error "); } return Error_code::SUCCESS; } //调度模块 //执行搬运请求(主控->调度管理) Error_manager Dispatch_manager::execute_for_dispatch_request_msg(message::Dispatch_request_msg& dispatch_request_msg) { LOG(INFO) << " ---Dispatch_manager::execute_for_dispatch_request_msg--- "<< dispatch_request_msg.DebugString() << " "<< this; LOG(INFO) << " dispatch_request_msg->m_command_key = "<Dispatch_process_init(dispatch_request_msg); if ( t_error != Error_code::SUCCESS ) { delete(tp_dispatch_process); return t_error; } {//加锁 std::unique_lock t_lock(m_lock); //流程缓存到map if (tp_dispatch_process->m_dispatch_process_type == Common_data::Dispatch_process_type::DISPATCH_PROCESS_STORE) { m_process_store_list.push_back(tp_dispatch_process); //这里就不查重了, 需要主控保证不会重复发送... // if (m_key_to_dispatch_process_store_map.find(tp_dispatch_process->m_command_key) != // m_key_to_dispatch_process_store_map.end()) // { // t_error = Error_manager(Error_code::DISPATCH_PROCESS_COMMAND_KEY_REPEAT, Error_level::MINOR_ERROR, // " tp_dispatch_process->m_command_key is repeat "); // } // else // { // m_key_to_dispatch_process_store_map[tp_dispatch_process->m_command_key] = tp_dispatch_process; // } } else if (tp_dispatch_process->m_dispatch_process_type == Common_data::Dispatch_process_type::DISPATCH_PROCESS_PICKUP) { m_process_pickup_list.push_back(tp_dispatch_process); //这里就不查重了, 需要主控保证不会重复发送... // if (m_key_to_dispatch_process_pickup_map.find(tp_dispatch_process->m_command_key) != // m_key_to_dispatch_process_pickup_map.end()) // { // t_error = Error_manager(Error_code::DISPATCH_PROCESS_COMMAND_KEY_REPEAT, Error_level::MINOR_ERROR, // " tp_dispatch_process->m_command_key is repeat "); // } // else // { // m_key_to_dispatch_process_pickup_map[tp_dispatch_process->m_command_key] = tp_dispatch_process; // } } else { t_error = Error_manager(Error_code::DISPATCH_PROCESS_TASK_STATUS_ERROR, Error_level::MINOR_ERROR, " tp_dispatch_process->m_dispatch_process_type PARAMRTER ERROR "); } } if ( t_error != Error_code::SUCCESS ) { delete(tp_dispatch_process); send_dispatch_response_msg_with_error(dispatch_request_msg, t_error); return t_error; } else { //把流程添加到调度线程池里面, 里面的线程池会自动回收调度流程的内存 m_process_thread_queue->AddTask(tp_dispatch_process); } return Error_code::SUCCESS; } //调度模块答复数据异常 Error_manager Dispatch_manager::send_dispatch_response_msg_with_error(message::Dispatch_request_msg &dispatch_request_msg, Error_manager error) { message::Dispatch_response_msg t_dispatch_response_msg; t_dispatch_response_msg.mutable_base_info()->set_msg_type(message::Message_type::eDispatch_response_msg); t_dispatch_response_msg.mutable_base_info()->set_timeout_ms(dispatch_request_msg.base_info().timeout_ms()); t_dispatch_response_msg.mutable_base_info()->set_sender(message::Communicator::eDispatch_manager); t_dispatch_response_msg.mutable_base_info()->set_receiver(message::Communicator::eMain); t_dispatch_response_msg.set_command_key(dispatch_request_msg.command_key()); t_dispatch_response_msg.mutable_error_manager()->set_error_code(error.get_error_code()); t_dispatch_response_msg.mutable_error_manager()->set_error_level((message::Error_level)error.get_error_level()); t_dispatch_response_msg.mutable_error_manager()->set_error_description(error.get_error_description()); System_communication::get_instance_references().encapsulate_msg(t_dispatch_response_msg.SerializeAsString()); return Error_code::SUCCESS; } //调度模块 //调度总规划的答复(调度算法->调度管理) Error_manager Dispatch_manager::execute_for_dispatch_plan_response_msg(message::Dispatch_plan_response_msg &dispatch_plan_response_msg) { LOG(INFO) << " ---Dispatch_manager::execute_for_dispatch_plan_response_msg--- "<< this; LOG(INFO) << " dispatch_plan_response_msg->m_command_key = "< t_lock(m_lock); //使用 command_key 找到对应的流程 std::string t_command_key = dispatch_plan_response_msg.command_key(); for (auto iter = m_key_to_dispatch_process_store_map.begin(); iter != m_key_to_dispatch_process_store_map.end(); ++iter) { if ( 0 == iter->first.compare(0, COMMAND_KEY_DEFAULT_LENGTH, t_command_key, 0, COMMAND_KEY_DEFAULT_LENGTH) ) { t_error = iter->second->check_process_ready() ; if ( t_error != Error_code::SUCCESS ) { return t_error; } //把消息写入流程 std::unique_lock t_lock(iter->second->m_lock); iter->second->m_dispatch_plan_response_msg = dispatch_plan_response_msg; return Error_code::SUCCESS; } } for (auto iter = m_key_to_dispatch_process_pickup_map.begin(); iter != m_key_to_dispatch_process_pickup_map.end(); ++iter) { if ( 0 == iter->first.compare(0, COMMAND_KEY_DEFAULT_LENGTH, t_command_key, 0, COMMAND_KEY_DEFAULT_LENGTH) ) { t_error = iter->second->check_process_ready() ; if ( t_error != Error_code::SUCCESS ) { return t_error; } //把消息写入流程 std::unique_lock t_lock(iter->second->m_lock); iter->second->m_dispatch_plan_response_msg = dispatch_plan_response_msg; return Error_code::SUCCESS; } } return Error_code::SUCCESS; } //调度模块 //调度控制的任务请求(调度算法->调度管理) Error_manager Dispatch_manager::execute_for_dispatch_control_request_msg(message::Dispatch_control_request_msg &dispatch_control_request_msg) { LOG(INFO) << " ---Dispatch_manager::execute_for_dispatch_control_request_msg--- "<< this; LOG(INFO) << " dispatch_control_request_msg->m_command_key = "< t_lock(m_lock); //使用 command_key 找到对应的流程 std::string t_command_key = dispatch_control_request_msg.command_key(); for (auto iter = m_key_to_dispatch_process_store_map.begin(); iter != m_key_to_dispatch_process_store_map.end(); ++iter) { if ( 0 == iter->first.compare(0, COMMAND_KEY_DEFAULT_LENGTH, t_command_key, 0, COMMAND_KEY_DEFAULT_LENGTH) ) { t_error = iter->second->check_process_ready() ; if ( t_error != Error_code::SUCCESS ) { return t_error; } //把消息写入流程 std::unique_lock t_lock(iter->second->m_lock); int t_dispatch_device_type = dispatch_control_request_msg.dispatch_device_type(); if ( iter->second->m_dispatch_control_node_map.find(t_dispatch_device_type) == iter->second->m_dispatch_control_node_map.end() ) { Dispatch_process::Dispatch_control_node t_dispatch_control_node; iter->second->m_dispatch_control_node_map[t_dispatch_device_type] = t_dispatch_control_node; iter->second->m_dispatch_control_node_map[t_dispatch_device_type].m_dispatch_control_status = Dispatch_process::Dispatch_control_status::DISPATCH_CONTROL_READY; } iter->second->m_dispatch_control_node_map[t_dispatch_device_type].m_dispatch_control_request_msg = dispatch_control_request_msg; // iter->second->m_dispatch_control_node_map[t_dispatch_device_type].m_dispatch_control_status = Dispatch_process::Dispatch_control_status::DISPATCH_CONTROL_READY; return Error_code::SUCCESS; } } for (auto iter = m_key_to_dispatch_process_pickup_map.begin(); iter != m_key_to_dispatch_process_pickup_map.end(); ++iter) { if ( 0 == iter->first.compare(0, COMMAND_KEY_DEFAULT_LENGTH, t_command_key, 0, COMMAND_KEY_DEFAULT_LENGTH) ) { t_error = iter->second->check_process_ready() ; if ( t_error != Error_code::SUCCESS ) { return t_error; } //把消息写入流程 std::unique_lock t_lock(iter->second->m_lock); int t_dispatch_device_type = dispatch_control_request_msg.dispatch_device_type(); if ( iter->second->m_dispatch_control_node_map.find(t_dispatch_device_type) == iter->second->m_dispatch_control_node_map.end() ) { Dispatch_process::Dispatch_control_node t_dispatch_control_node; iter->second->m_dispatch_control_node_map[t_dispatch_device_type] = t_dispatch_control_node; iter->second->m_dispatch_control_node_map[t_dispatch_device_type].m_dispatch_control_status = Dispatch_process::Dispatch_control_status::DISPATCH_CONTROL_READY; } iter->second->m_dispatch_control_node_map[t_dispatch_device_type].m_dispatch_control_request_msg = dispatch_control_request_msg; // iter->second->m_dispatch_control_node_map[t_dispatch_device_type].m_dispatch_control_status = Dispatch_process::Dispatch_control_status::DISPATCH_CONTROL_READY; return Error_code::SUCCESS; } } return Error_code::SUCCESS; } //定时发送调度管理的状态 Error_manager Dispatch_manager::encapsulate_send_dispatch_manager_status() { Error_manager t_error; int t_dispatch_manager_id = get_dispatch_manager_id(); std::string t_msg; //创建一条调度管理总管理的状态 message::Dispatch_manager_status_msg t_dispatch_manager_status_msg; t_dispatch_manager_status_msg.mutable_base_info()->set_msg_type(message::Message_type::eDispatch_manager_status_msg); t_dispatch_manager_status_msg.mutable_base_info()->set_timeout_ms(5000); t_dispatch_manager_status_msg.mutable_base_info()->set_sender(message::Communicator::eDispatch_manager); t_dispatch_manager_status_msg.mutable_base_info()->set_receiver(message::Communicator::eEmpty); t_dispatch_manager_status_msg.set_dispatch_id(t_dispatch_manager_id); Dispatch_manager::Dispatch_manager_status t_dispatch_manager_status = get_dispatch_manager_status(); t_dispatch_manager_status_msg.set_dispatch_manager_status((message::Dispatch_manager_status)t_dispatch_manager_status); for (auto iter = m_catcher_map.begin(); iter != m_catcher_map.end(); ++iter) { Catcher* tp_catcher = (Catcher*)iter->second.get(); message::Catcher_data * tp_catcher_data = t_dispatch_manager_status_msg.mutable_catcher_data_map()->Add(); switch ( tp_catcher->get_device_id() ) { case 0: { tp_catcher_data->set_dispatch_device_type(message::Dispatch_device_type::ROBOT_1); break; } case 1: { tp_catcher_data->set_dispatch_device_type(message::Dispatch_device_type::ROBOT_2); break; } default: { break; } } if ( tp_catcher->get_dispatch_device_status() >= Dispatch_device_base::Dispatch_device_status::DISPATCH_DEVICE_BUSY && tp_catcher->get_dispatch_device_status() <= Dispatch_device_base::Dispatch_device_status::DISPATCH_DEVICE_THREE_LEVEL_WORK) { tp_catcher_data->set_dispatch_device_status(message::Dispatch_device_status::DISPATCH_DEVICE_BUSY); } else { tp_catcher_data->set_dispatch_device_status((message::Dispatch_device_status)tp_catcher->get_dispatch_device_status()); } tp_catcher_data->set_device_id(tp_catcher->get_device_id()); tp_catcher_data->set_actual_device_status((message::Hardware_device_status)tp_catcher->m_actual_device_status); tp_catcher_data->set_actual_load_status((message::Load_status)tp_catcher->m_actual_load_status); tp_catcher_data->set_actual_coordinates_id(tp_catcher->m_actual_coordinates_id); tp_catcher_data->set_actual_x(tp_catcher->m_actual_x); tp_catcher_data->set_actual_y(tp_catcher->m_actual_y); tp_catcher_data->set_actual_b(tp_catcher->m_actual_b); tp_catcher_data->set_actual_z(tp_catcher->m_actual_z); tp_catcher_data->set_actual_d1(tp_catcher->m_actual_d1); tp_catcher_data->set_actual_d2(tp_catcher->m_actual_d2); tp_catcher_data->set_actual_clamp_motion1((message::Clamp_motion)tp_catcher->m_actual_clamp_motion1); tp_catcher_data->set_actual_clamp_motion2((message::Clamp_motion)tp_catcher->m_actual_clamp_motion2); tp_catcher_data->set_actual_clamp_motion3((message::Clamp_motion)tp_catcher->m_actual_clamp_motion3); tp_catcher_data->set_actual_clamp_motion4((message::Clamp_motion)tp_catcher->m_actual_clamp_motion4); std::string t_actual_error_code((char*)tp_catcher->m_actual_error_code, 50); tp_catcher_data->set_actual_error_code(t_actual_error_code); std::string t_actual_warning_code((char*)tp_catcher->m_actual_warning_code, 50); tp_catcher_data->set_actual_error_code(t_actual_warning_code); tp_catcher_data->set_actual_error_code(tp_catcher->m_actual_error_description); } for (auto iter = m_carrier_map.begin(); iter != m_carrier_map.end(); ++iter) { Carrier* tp_carrier = (Carrier*)iter->second.get(); message::Carrier_data * tp_carrier_data = t_dispatch_manager_status_msg.mutable_carrier_data_map()->Add(); switch ( tp_carrier->get_device_id() ) { case 0: { tp_carrier_data->set_dispatch_device_type(message::Dispatch_device_type::CARRIER_1); break; } case 1: { tp_carrier_data->set_dispatch_device_type(message::Dispatch_device_type::CARRIER_2); break; } case 2: { tp_carrier_data->set_dispatch_device_type(message::Dispatch_device_type::CARRIER_3); break; } default: { break; } } if ( tp_carrier->get_dispatch_device_status() >= Dispatch_device_base::Dispatch_device_status::DISPATCH_DEVICE_BUSY && tp_carrier->get_dispatch_device_status() <= Dispatch_device_base::Dispatch_device_status::DISPATCH_DEVICE_THREE_LEVEL_WORK) { tp_carrier_data->set_dispatch_device_status(message::Dispatch_device_status::DISPATCH_DEVICE_BUSY); } else { tp_carrier_data->set_dispatch_device_status((message::Dispatch_device_status)tp_carrier->get_dispatch_device_status()); } tp_carrier_data->set_device_id(tp_carrier->get_device_id()); tp_carrier_data->set_actual_device_status((message::Hardware_device_status)tp_carrier->m_actual_device_status); tp_carrier_data->set_actual_load_status((message::Load_status)tp_carrier->m_actual_load_status); tp_carrier_data->set_actual_coordinates_id(tp_carrier->m_actual_coordinates_id); tp_carrier_data->set_actual_x(tp_carrier->m_actual_x); tp_carrier_data->set_actual_y(tp_carrier->m_actual_y); tp_carrier_data->set_actual_z(tp_carrier->m_actual_z); tp_carrier_data->set_actual_y1(tp_carrier->m_actual_y1); tp_carrier_data->set_actual_y2(tp_carrier->m_actual_y2); tp_carrier_data->set_actual_clamp_motion1((message::Clamp_motion)tp_carrier->m_actual_clamp_motion1); tp_carrier_data->set_actual_clamp_motion2((message::Clamp_motion)tp_carrier->m_actual_clamp_motion2); tp_carrier_data->set_actual_small_sports_car_motion((message::Small_sports_car_motion)tp_carrier->m_actual_small_sports_car_motion); tp_carrier_data->set_actual_joint_motion_x1((message::Joint_motion)tp_carrier->m_actual_joint_motion_x1); tp_carrier_data->set_actual_joint_motion_x2((message::Joint_motion)tp_carrier->m_actual_joint_motion_x2); std::string t_actual_error_code((char*)tp_carrier->m_actual_error_code, 50); tp_carrier_data->set_actual_error_code(t_actual_error_code); std::string t_actual_warning_code((char*)tp_carrier->m_actual_warning_code, 50); tp_carrier_data->set_actual_error_code(t_actual_warning_code); tp_carrier_data->set_actual_error_code(tp_carrier->m_actual_error_description); } t_msg = t_dispatch_manager_status_msg.SerializeAsString(); System_communication::get_instance_references().encapsulate_msg(t_msg); // std::cout << " huli test :::: " << " 12312312312312 = " << t_dispatch_manager_status_msg.DebugString() << std::endl; // std::cout << " huli test :::: " << " 123123ggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggg12312312 = " << 123 << std::endl; return Error_code::SUCCESS; } //在流程的map 里面释放指定的流程 Error_manager Dispatch_manager::release_dispatch_process(std::string command_key) { std::unique_lock t_lock(m_lock); auto iter1 = m_key_to_dispatch_process_store_map.find(command_key); if ( iter1 != m_key_to_dispatch_process_store_map.end()) { m_key_to_dispatch_process_store_map.erase(iter1); } auto iter2 = m_key_to_dispatch_process_pickup_map.find(command_key); if ( iter2 != m_key_to_dispatch_process_pickup_map.end()) { m_key_to_dispatch_process_pickup_map.erase(iter2); } for (auto iter = m_process_store_list.begin(); iter != m_process_store_list.end(); ++iter) { if ( (*iter)->m_command_key == command_key ) { m_process_store_list.erase(iter); break; } } for (auto iter = m_process_pickup_list.begin(); iter != m_process_pickup_list.end(); ++iter) { if ( (*iter)->m_command_key == command_key ) { m_process_pickup_list.erase(iter); break; } } return Error_code::SUCCESS; } Dispatch_manager::Dispatch_manager_status Dispatch_manager::get_dispatch_manager_status() { return m_dispatch_manager_status; } int Dispatch_manager::get_dispatch_manager_id() { return m_dispatch_manager_id; } void Dispatch_manager::set_dispatch_manager_id(int dispatch_manager_id) { m_dispatch_manager_id = dispatch_manager_id; } //资源分配 void Dispatch_manager::resource_allocation() { LOG(INFO) << " Dispatch_manager::resource_allocation() start " << this; Error_manager t_error; //分配资源的标记位, 保证每次大循环,只分配一个资源 //流程和搬运器匹配上了, 就直接把t_allocation_flag改为true, 然后重新开始线程循环. bool t_allocation_flag = false; Carrier* tp_carrier_left = (Carrier*)m_carrier_map[0].get(); Carrier* tp_carrier_right = (Carrier*)m_carrier_map[1].get(); Carrier* tp_carrier_3rd = (Carrier*)m_carrier_map[2].get(); while (m_dispatch_manager_condition.is_alive()) { m_dispatch_manager_condition.wait(); if ( m_dispatch_manager_condition.is_alive() ) { std::this_thread::sleep_for(std::chrono::microseconds(1)); // std::this_thread::sleep_for(std::chrono::milliseconds(1)); // std::this_thread::sleep_for(std::chrono::seconds(1)); std::this_thread::yield(); std::unique_lock t_lock(m_lock); t_allocation_flag = false; //本线程函数只负责分配搬运器的资源给对应的流程 //然后拥有搬运器资源的流程, 自己去抢机器人的资源. //注意了: 搬运器有3个, 需要合理安排路线, 尽量保证搬运器以存取存取的顺序执行任务, 搬运器最好不要空载运行. //注意了: 机器人只有1个, 是调度系统最紧缺的资源, 尽量保证机器人无间断一直运行, 使效率最大化. bool t_carrier_left_is_ready = m_carrier_map[0]->is_ready(); bool t_carrier_left_is_store = m_carrier_map[0]->is_able_excute_store(); bool t_carrier_left_is_pickup = m_carrier_map[0]->is_able_excute_pickup(); bool t_carrier_right_is_ready = m_carrier_map[1]->is_ready(); bool t_carrier_right_is_store = m_carrier_map[1]->is_able_excute_store(); bool t_carrier_right_is_pickup = m_carrier_map[1]->is_able_excute_pickup(); bool t_carrier_3rd_is_ready = m_carrier_map[2]->is_ready(); bool t_carrier_3rd_is_store = m_carrier_map[2]->is_able_excute_store(); bool t_carrier_3rd_is_pickup = m_carrier_map[2]->is_able_excute_pickup(); //判断是否有搬运器空闲 if ( t_carrier_left_is_ready || t_carrier_right_is_ready || t_carrier_3rd_is_ready) { if ( !t_allocation_flag ) { //优先做取车 for (auto iter = m_process_pickup_list.begin(); iter != m_process_pickup_list.end(); ++iter) { //判断是否有取车任务可以开始执行 if ( (*iter)->is_ready() ) { //注意了:获取取车的路线, 停车位作为唯一起点, 由坐标模块判断可行的路径 Dispatch_coordinates::Parkspace_path t_parkspace_path = Dispatch_coordinates::get_instance_references().get_pickup_path((*iter)->m_dispatch_source, (*iter)->m_dispatch_destination); //分配合理的版搬运器 if ( t_carrier_left_is_ready && t_carrier_right_is_ready && t_parkspace_path == Dispatch_coordinates::Parkspace_path::DOUBLE_PATH) { //选最近的搬运器 if ( Dispatch_coordinates::get_instance_references().choice_nearest_carrier((*iter)->m_dispatch_source, tp_carrier_left->m_actual_coordinates_id, tp_carrier_right->m_actual_coordinates_id) ) { m_carrier_map[0]->appoint_task((*iter)->m_command_key, (*iter)->m_dispatch_process_type, Dispatch_device_base::Dispatch_task_level::DISPATCH_TASK_ONE_LEVEL); (*iter)->set_main_carrier(m_carrier_map[0]); t_allocation_flag = true; break; } else { m_carrier_map[1]->appoint_task((*iter)->m_command_key, (*iter)->m_dispatch_process_type, Dispatch_device_base::Dispatch_task_level::DISPATCH_TASK_ONE_LEVEL); (*iter)->set_main_carrier(m_carrier_map[1]); t_allocation_flag = true; break; } } if ( t_carrier_left_is_ready && (t_parkspace_path == Dispatch_coordinates::Parkspace_path::LEFT_PATH || t_parkspace_path == Dispatch_coordinates::Parkspace_path::DOUBLE_PATH) ) { m_carrier_map[0]->appoint_task((*iter)->m_command_key, (*iter)->m_dispatch_process_type, Dispatch_device_base::Dispatch_task_level::DISPATCH_TASK_ONE_LEVEL); (*iter)->set_main_carrier(m_carrier_map[0]); t_allocation_flag = true; break; } if ( t_carrier_right_is_ready && (t_parkspace_path == Dispatch_coordinates::Parkspace_path::RIGHT_PATH || t_parkspace_path == Dispatch_coordinates::Parkspace_path::DOUBLE_PATH) ) { m_carrier_map[1]->appoint_task((*iter)->m_command_key, (*iter)->m_dispatch_process_type, Dispatch_device_base::Dispatch_task_level::DISPATCH_TASK_ONE_LEVEL); (*iter)->set_main_carrier(m_carrier_map[1]); t_allocation_flag = true; break; } if ( t_carrier_3rd_is_ready && t_parkspace_path == Dispatch_coordinates::Parkspace_path::THIRD_FLOOR_PATH) { m_carrier_map[2]->appoint_task((*iter)->m_command_key, (*iter)->m_dispatch_process_type, Dispatch_device_base::Dispatch_task_level::DISPATCH_TASK_ONE_LEVEL); (*iter)->set_main_carrier(m_carrier_map[2]); t_allocation_flag = true; break; } } } } if ( !t_allocation_flag ) { //然后做存车 for (auto iter = m_process_store_list.begin(); iter != m_process_store_list.end(); ++iter) { //判断是否有取车任务可以开始执行 if ( (*iter)->is_ready() ) { //注意了: 存车的路径由车位数据库模块来制定. bool is_left_path = (*iter)->is_able_store_left_path(); bool is_right_path = (*iter)->is_able_store_right_path(); bool is_temporary_path = (*iter)->is_able_store_temporary_cache_path(); bool is_2nd_path = (*iter)->is_able_store_temporary_cache_path_2nd_floor(); bool is_3rd_path = (*iter)->is_able_store_temporary_cache_path_3rd_floor(); // std::cout << " huli test :::: " << " 1111111111111111 = " << 123 << std::endl; // std::cout << " huli test :::: " << " is_left_path = " << is_left_path << std::endl; // std::cout << " huli test :::: " << " is_right_path = " << is_right_path << std::endl; // std::cout << " huli test :::: " << " is_temporary_path = " << is_temporary_path << std::endl; // std::cout << " huli test :::: " << " is_2nd_path = " << is_2nd_path << std::endl; // std::cout << " huli test :::: " << " is_3rd_path = " << is_3rd_path << std::endl; // std::cout << " huli test :::: " << " 2222222222222222 = " << 567 << std::endl; //如果只能存到缓存位, 那么也要执行, 修改标志位 if ( (!is_left_path) && (!is_right_path) && is_temporary_path) { (*iter)->m_temporary_cache_flag = true; } else { (*iter)->m_temporary_cache_flag = false; } //分配合理的版搬运器 if ( t_carrier_left_is_ready && t_carrier_right_is_ready) { if ( (is_left_path && is_right_path) || ( (!is_left_path) && (!is_right_path) && is_2nd_path) )//如果只能存到2楼, 那么也要执行 { //选最近的搬运器 if ( Dispatch_coordinates::get_instance_references().choice_nearest_carrier( (*iter)->m_dispatch_source, tp_carrier_left->m_actual_coordinates_id, tp_carrier_right->m_actual_coordinates_id) ) { m_carrier_map[0]->appoint_task((*iter)->m_command_key, (*iter)->m_dispatch_process_type, Dispatch_device_base::Dispatch_task_level::DISPATCH_TASK_ONE_LEVEL); (*iter)->set_main_carrier(m_carrier_map[0]); t_allocation_flag = true; break; } else { m_carrier_map[1]->appoint_task((*iter)->m_command_key, (*iter)->m_dispatch_process_type, Dispatch_device_base::Dispatch_task_level::DISPATCH_TASK_ONE_LEVEL); (*iter)->set_main_carrier(m_carrier_map[1]); t_allocation_flag = true; break; } } } if ( t_carrier_left_is_ready ) { if ( is_left_path || ( (!is_left_path) && (!is_right_path) && is_2nd_path) )//如果只能存到2楼, 那么也要执行 { m_carrier_map[0]->appoint_task((*iter)->m_command_key, (*iter)->m_dispatch_process_type, Dispatch_device_base::Dispatch_task_level::DISPATCH_TASK_ONE_LEVEL); (*iter)->set_main_carrier(m_carrier_map[0]); t_allocation_flag = true; break; } } if ( t_carrier_right_is_ready ) { if ( is_right_path || ( (!is_left_path) && (!is_right_path) && is_2nd_path) )//如果只能存到2楼, 那么也要执行 { m_carrier_map[1]->appoint_task((*iter)->m_command_key, (*iter)->m_dispatch_process_type, Dispatch_device_base::Dispatch_task_level::DISPATCH_TASK_ONE_LEVEL); (*iter)->set_main_carrier(m_carrier_map[1]); t_allocation_flag = true; break; } } if ( t_carrier_3rd_is_ready) { if ( (!is_left_path) && (!is_right_path) && is_3rd_path) { m_carrier_map[2]->appoint_task((*iter)->m_command_key, (*iter)->m_dispatch_process_type, Dispatch_device_base::Dispatch_task_level::DISPATCH_TASK_ONE_LEVEL); (*iter)->set_main_carrier(m_carrier_map[2]); t_allocation_flag = true; break; } } } } } } //判断是否有搬运器可以预约取车 if ( t_carrier_left_is_pickup || t_carrier_right_is_pickup || t_carrier_3rd_is_pickup) { if ( !t_allocation_flag ) { //优先做取车 for (auto iter = m_process_pickup_list.begin(); iter != m_process_pickup_list.end(); ++iter) { //判断是否有取车任务可以开始执行 if ( (*iter)->is_ready() ) { //注意了:获取取车的路线, 停车位作为唯一起点, 由坐标模块判断可行的路径 Dispatch_coordinates::Parkspace_path t_parkspace_path = Dispatch_coordinates::get_instance_references().get_pickup_path((*iter)->m_dispatch_source, (*iter)->m_dispatch_destination); //分配合理的版搬运器 if ( t_carrier_left_is_pickup && t_carrier_right_is_pickup && t_parkspace_path == Dispatch_coordinates::Parkspace_path::DOUBLE_PATH) { //注意了:这里需要根据3级存车任务来选择一级取车任务 //对比2个搬运器的3级存车任务的状态, 来选择合适的搬运器, 后续可能会改道 if ( tp_carrier_left->m_redirect_flag && tp_carrier_right->m_redirect_flag && (*iter)->m_car_type >= tp_carrier_left->m_redirect_store_car_type && (*iter)->m_car_type >= tp_carrier_right->m_redirect_store_car_type) { //选最近的搬运器 if ( Dispatch_coordinates::get_instance_references().choice_nearest_carrier((*iter)->m_dispatch_source, tp_carrier_left->m_actual_coordinates_id, tp_carrier_right->m_actual_coordinates_id) ) { m_carrier_map[0]->appoint_task((*iter)->m_command_key, (*iter)->m_dispatch_process_type, Dispatch_device_base::Dispatch_task_level::DISPATCH_TASK_ONE_LEVEL); (*iter)->set_main_carrier(m_carrier_map[0]); t_allocation_flag = true; break; } else { m_carrier_map[1]->appoint_task((*iter)->m_command_key, (*iter)->m_dispatch_process_type, Dispatch_device_base::Dispatch_task_level::DISPATCH_TASK_ONE_LEVEL); (*iter)->set_main_carrier(m_carrier_map[1]); t_allocation_flag = true; break; } } else if ( tp_carrier_left->m_redirect_flag && (*iter)->m_car_type >= tp_carrier_left->m_redirect_store_car_type ) { m_carrier_map[0]->appoint_task((*iter)->m_command_key, (*iter)->m_dispatch_process_type, Dispatch_device_base::Dispatch_task_level::DISPATCH_TASK_ONE_LEVEL); (*iter)->set_main_carrier(m_carrier_map[0]); t_allocation_flag = true; break; } else //只要左库不能改道, 那么就把任务分给右库, 因为右库多一个7号出口. { m_carrier_map[1]->appoint_task((*iter)->m_command_key, (*iter)->m_dispatch_process_type, Dispatch_device_base::Dispatch_task_level::DISPATCH_TASK_ONE_LEVEL); (*iter)->set_main_carrier(m_carrier_map[1]); t_allocation_flag = true; break; } } if ( t_carrier_left_is_pickup && (t_parkspace_path == Dispatch_coordinates::Parkspace_path::LEFT_PATH || t_parkspace_path == Dispatch_coordinates::Parkspace_path::DOUBLE_PATH) ) { m_carrier_map[0]->appoint_task((*iter)->m_command_key, (*iter)->m_dispatch_process_type, Dispatch_device_base::Dispatch_task_level::DISPATCH_TASK_ONE_LEVEL); (*iter)->set_main_carrier(m_carrier_map[0]); t_allocation_flag = true; break; } if ( t_carrier_right_is_pickup && (t_parkspace_path == Dispatch_coordinates::Parkspace_path::RIGHT_PATH || t_parkspace_path == Dispatch_coordinates::Parkspace_path::DOUBLE_PATH) ) { m_carrier_map[1]->appoint_task((*iter)->m_command_key, (*iter)->m_dispatch_process_type, Dispatch_device_base::Dispatch_task_level::DISPATCH_TASK_ONE_LEVEL); (*iter)->set_main_carrier(m_carrier_map[1]); t_allocation_flag = true; break; } if ( t_carrier_3rd_is_pickup && t_parkspace_path == Dispatch_coordinates::Parkspace_path::THIRD_FLOOR_PATH) { m_carrier_map[2]->appoint_task((*iter)->m_command_key, (*iter)->m_dispatch_process_type, Dispatch_device_base::Dispatch_task_level::DISPATCH_TASK_ONE_LEVEL); (*iter)->set_main_carrier(m_carrier_map[2]); t_allocation_flag = true; break; } } } } } //判断是否有搬运器可以预约取车 if ( t_carrier_left_is_store || t_carrier_right_is_store || t_carrier_3rd_is_store) { if ( !t_allocation_flag ) { //没有分配的 int t_need_allocation_size = 0; for (auto iter = m_process_store_list.begin(); iter != m_process_store_list.end(); ++iter) { if ( !(*iter)->is_ready() ) { t_need_allocation_size++; } } //然后做存车 for (auto iter = m_process_store_list.begin(); iter != m_process_store_list.end(); ++iter) { //判断是否有取车任务可以开始执行 if ( (*iter)->is_ready() ) { //注意了: 存车的路径由车位数据库模块来制定. bool is_left_path = (*iter)->is_able_store_left_path(); bool is_right_path = (*iter)->is_able_store_right_path(); bool is_temporary_path = (*iter)->is_able_store_temporary_cache_path(); bool is_2nd_path = (*iter)->is_able_store_temporary_cache_path_2nd_floor(); bool is_3rd_path = (*iter)->is_able_store_temporary_cache_path_3rd_floor(); //如果只能存到缓存位, 或者存车流程数量超限, 修改标志位 if ( ( (!is_left_path) && (!is_right_path) && is_temporary_path) || (t_need_allocation_size >= DISPATCH_MANAHER_STORE_LIST_SIZE_LIMIT && is_temporary_path) ) { (*iter)->m_temporary_cache_flag = true; } else { (*iter)->m_temporary_cache_flag = false; } //分配合理的版搬运器 if ( t_carrier_left_is_store && t_carrier_right_is_store) { if ( ( (*iter)->m_temporary_cache_flag && is_2nd_path) || ( (!(*iter)->m_temporary_cache_flag) && is_left_path && is_right_path) ) { if ( is_2nd_path ) { //选最近的搬运器 if ( Dispatch_coordinates::get_instance_references().choice_nearest_carrier( (*iter)->m_dispatch_source, tp_carrier_left->m_actual_coordinates_id, tp_carrier_right->m_actual_coordinates_id) ) { m_carrier_map[0]->appoint_task((*iter)->m_command_key, (*iter)->m_dispatch_process_type, Dispatch_device_base::Dispatch_task_level::DISPATCH_TASK_ONE_LEVEL); (*iter)->set_main_carrier(m_carrier_map[0]); t_allocation_flag = true; break; } else { m_carrier_map[1]->appoint_task((*iter)->m_command_key, (*iter)->m_dispatch_process_type, Dispatch_device_base::Dispatch_task_level::DISPATCH_TASK_ONE_LEVEL); (*iter)->set_main_carrier(m_carrier_map[1]); t_allocation_flag = true; break; } } } } if ( t_carrier_left_is_store ) { if ( ( (*iter)->m_temporary_cache_flag && is_2nd_path) || ( (!(*iter)->m_temporary_cache_flag) && is_left_path ) ) { m_carrier_map[0]->appoint_task((*iter)->m_command_key, (*iter)->m_dispatch_process_type, Dispatch_device_base::Dispatch_task_level::DISPATCH_TASK_ONE_LEVEL); (*iter)->set_main_carrier(m_carrier_map[0]); t_allocation_flag = true; break; } } if ( t_carrier_right_is_store ) { if ( ( (*iter)->m_temporary_cache_flag && is_2nd_path) || ( (!(*iter)->m_temporary_cache_flag) && is_right_path) ) { m_carrier_map[1]->appoint_task((*iter)->m_command_key, (*iter)->m_dispatch_process_type, Dispatch_device_base::Dispatch_task_level::DISPATCH_TASK_ONE_LEVEL); (*iter)->set_main_carrier(m_carrier_map[1]); t_allocation_flag = true; break; } } if ( t_carrier_3rd_is_store) { if ( (*iter)->m_temporary_cache_flag && is_3rd_path ) { m_carrier_map[2]->appoint_task((*iter)->m_command_key, (*iter)->m_dispatch_process_type, Dispatch_device_base::Dispatch_task_level::DISPATCH_TASK_ONE_LEVEL); (*iter)->set_main_carrier(m_carrier_map[2]); t_allocation_flag = true; break; } } } } } } } } LOG(INFO) << " Dispatch_manager::resource_allocation() end "<< this; return; }