void CVRPSolver::insertUnservedOrders(CSolutionInfo& curSolution) { ++m_iGeneratedSolutionCount; ++m_iStepsSinceLastSolution; bool insertAvailable = true; CMoveInfo curMove; int totalUnservedOrder = static_cast<int>(m_vOrderInfos.size() - curSolution.getOrderServed()); while (insertAvailable && totalUnservedOrder > 0) { int insertTourId = -1; insertAvailable = false; int totalTour = static_cast<int>(curSolution.getTourInfoVector().size()); std::pair<int, int> PotentialInsert; // first = insert_index, second = removed_customer_index; std::pair<int, double> bestInsert = std::make_pair(-1, DOUBLE_MAX); // first = customer_insert_index, second = cost; for (int j = 0; j < totalTour; ++j) { CTourInfo curTour = curSolution.getTour(j); curMove.setInitialTour(curTour); for (int i = 0; i < totalUnservedOrder; ++i) { int ordIndex = m_mapOrderIdToIndex[curSolution.getUnservedOrderAt(i)]; COrderInfo curOrder = m_vOrderInfos[ordIndex]; std::pair<int, double> curInsert = getPotentialInsert(curTour, curOrder); insertOrder(curTour, i, curInsert.first); curMove.setModifiedTour(curTour); curMove.getInitialTour(curTour); // check if current move is tabu. if (isTabuMove(curMove)) { continue; } if (curInsert.second < bestInsert.second) { insertTourId = j; insertAvailable = true; bestInsert = curInsert; PotentialInsert = std::make_pair(curInsert.first, i); } } } if (insertAvailable) { totalUnservedOrder--; curMove.setInitialTour(curSolution.getTour(insertTourId)); addOrderAtTour(curSolution, insertTourId, PotentialInsert.first, PotentialInsert.second); curMove.setModifiedTour(curSolution.getTour(insertTourId)); this->updateTabuCount(curMove); this->updateFinalSolution(curSolution); // this->evaluateCurrentSolution(); } } }
int find_vrp_solution(vrp_vehicles_t *vehicles, size_t vehicle_count, vrp_orders_t *orders, size_t order_count, vrp_cost_element_t *costmatrix, size_t cost_count, int depot_id, vrp_result_element_t **results, size_t *result_count, char **err_msg) { int res; std::string strError; try { PGR_LOG("Before load order"); loadOrders(orders, static_cast<int>(order_count), depot_id); PGR_LOG("After load order"); loadVehicles(vehicles, static_cast<int>(vehicle_count)); PGR_LOG("After load vehicles"); loadDistanceMatrix(costmatrix, static_cast<int>(cost_count), depot_id); PGR_LOG("After load distance matrix"); res = solver.solveVRP(strError); PGR_LOG("After VRP Solve"); } catch(std::exception& e) { *err_msg = (char *) e.what(); return -1; } catch(...) { *err_msg = (char *) "Caught unknown exception!"; return -1; } if (res < 0) { return res; } else { try { CSolutionInfo solution; CTourInfo ctour; // bool bOK = solver.getSolution(solution, strError); auto totalRoute = solution.getTourInfoVector().size(); size_t totRows = 0; for (size_t i = 0; i < totalRoute; i++) { totRows += (solution.getTour(static_cast<int>(i)).getServedOrderCount() + 2); } *results = (vrp_result_element_t *) malloc(totRows * sizeof(vrp_result_element_t)); *result_count = totRows; int cnt = 0; for (size_t i = 0; i < totalRoute; i++) { ctour = solution.getTour(static_cast<int>(i)); std::vector<int> vecOrder = ctour.getOrderVector(); auto totalOrder = vecOrder.size(); // For start depot (*results)[cnt].order_id = ctour.getStartDepot(); (*results)[cnt].order_pos = 0; (*results)[cnt].vehicle_id = ctour.getVehicleId(); (*results)[cnt].arrival_time = -1; (*results)[cnt].depart_time = ctour.getStartTime(0); cnt++; // For each order for (size_t j = 0; j < totalOrder; j++) { (*results)[cnt].order_id = vecOrder[j]; (*results)[cnt].order_pos = static_cast<int>(j) + 1; (*results)[cnt].vehicle_id = ctour.getVehicleId(); (*results)[cnt].depart_time = ctour.getStartTime(static_cast<int>(j) + 1); (*results)[cnt].arrival_time = ctour.getStartTime(static_cast<int>(j) + 1) - solver.getServiceTime(vecOrder[j]); cnt++; } // For return depot (*results)[cnt].order_id = ctour.getEndDepot(); (*results)[cnt].order_pos = static_cast<int>(totalOrder) + 1; (*results)[cnt].vehicle_id = ctour.getVehicleId(); (*results)[cnt].arrival_time = ctour.getStartTime(static_cast<int>(totalOrder) + 1); (*results)[cnt].depart_time = -1; cnt++; } } catch(std::exception& e) { *err_msg = (char *) e.what(); return -1; } catch(...) { *err_msg = (char *) "Caught unknown exception!"; return -1; } } return EXIT_SUCCESS; }