docs/cpp/vrp_starts_ends_8cc-example.html

// Copyright 2010-2025 Google LLC

// Licensed under the Apache License, Version 2.0 (the "License");

// you may not use this file except in compliance with the License.

// You may obtain a copy of the License at

//

//     http://www.apache.org/licenses/LICENSE-2.0

//

// Unless required by applicable law or agreed to in writing, software

// distributed under the License is distributed on an "AS IS" BASIS,

// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.

// See the License for the specific language governing permissions and

// limitations under the License.


// [START program]

// [START import]

#include <algorithm>

#include <cstdint>

#include <cstdlib>

#include <sstream>

#include <vector>


#include "ortools/base/logging.h"

#include "ortools/constraint_solver/constraint_solver.h"

#include "ortools/constraint_solver/routing.h"

#include "ortools/constraint_solver/routing_enums.pb.h"

#include "ortools/constraint_solver/routing_index_manager.h"

#include "ortools/constraint_solver/routing_parameters.h"

// [END import]


namespace operations_research {

// [START data_model]

struct DataModel {

  const std::vector<std::vector<int64_t>> distance_matrix{

      {0, 548, 776, 696, 582, 274, 502, 194, 308, 194, 536, 502, 388, 354, 468,

       776, 662},

      {548, 0, 684, 308, 194, 502, 730, 354, 696, 742, 1084, 594, 480, 674,

       1016, 868, 1210},

      {776, 684, 0, 992, 878, 502, 274, 810, 468, 742, 400, 1278, 1164, 1130,

       788, 1552, 754},

      {696, 308, 992, 0, 114, 650, 878, 502, 844, 890, 1232, 514, 628, 822,

       1164, 560, 1358},

      {582, 194, 878, 114, 0, 536, 764, 388, 730, 776, 1118, 400, 514, 708,

       1050, 674, 1244},

      {274, 502, 502, 650, 536, 0, 228, 308, 194, 240, 582, 776, 662, 628, 514,

       1050, 708},

      {502, 730, 274, 878, 764, 228, 0, 536, 194, 468, 354, 1004, 890, 856, 514,

       1278, 480},

      {194, 354, 810, 502, 388, 308, 536, 0, 342, 388, 730, 468, 354, 320, 662,

       742, 856},

      {308, 696, 468, 844, 730, 194, 194, 342, 0, 274, 388, 810, 696, 662, 320,

       1084, 514},

      {194, 742, 742, 890, 776, 240, 468, 388, 274, 0, 342, 536, 422, 388, 274,

       810, 468},

      {536, 1084, 400, 1232, 1118, 582, 354, 730, 388, 342, 0, 878, 764, 730,

       388, 1152, 354},

      {502, 594, 1278, 514, 400, 776, 1004, 468, 810, 536, 878, 0, 114, 308,

       650, 274, 844},

      {388, 480, 1164, 628, 514, 662, 890, 354, 696, 422, 764, 114, 0, 194, 536,

       388, 730},

      {354, 674, 1130, 822, 708, 628, 856, 320, 662, 388, 730, 308, 194, 0, 342,

       422, 536},

      {468, 1016, 788, 1164, 1050, 514, 514, 662, 320, 274, 388, 650, 536, 342,

       0, 764, 194},

      {776, 868, 1552, 560, 674, 1050, 1278, 742, 1084, 810, 1152, 274, 388,

       422, 764, 0, 798},

      {662, 1210, 754, 1358, 1244, 708, 480, 856, 514, 468, 354, 844, 730, 536,

       194, 798, 0},

  };

  const int num_vehicles = 4;

  // [START starts_ends]

  const std::vector<RoutingIndexManager::NodeIndex> starts{

      RoutingIndexManager::NodeIndex{1},

      RoutingIndexManager::NodeIndex{2},

      RoutingIndexManager::NodeIndex{15},

      RoutingIndexManager::NodeIndex{16},

  };

  const std::vector<RoutingIndexManager::NodeIndex> ends{

      RoutingIndexManager::NodeIndex{0},

      RoutingIndexManager::NodeIndex{0},

      RoutingIndexManager::NodeIndex{0},

      RoutingIndexManager::NodeIndex{0},

  };

  // [END starts_ends]

};

// [END data_model]


// [START solution_printer]

void PrintSolution(const DataModel& data, const RoutingIndexManager& manager,

                   const RoutingModel& routing, const Assignment& solution) {

  int64_t max_route_distance{0};

  for (int vehicle_id = 0; vehicle_id < data.num_vehicles; ++vehicle_id) {

    if (!routing.IsVehicleUsed(solution, vehicle_id)) {

      continue;

    }

    int64_t index = routing.Start(vehicle_id);

    LOG(INFO) << "Route for Vehicle " << vehicle_id << ":";

    int64_t route_distance{0};

    std::stringstream route;

    while (!routing.IsEnd(index)) {

      route << manager.IndexToNode(index).value() << " -> ";

      const int64_t previous_index = index;

      index = solution.Value(routing.NextVar(index));

      route_distance += routing.GetArcCostForVehicle(previous_index, index,

                                                     int64_t{vehicle_id});

    }

    LOG(INFO) << route.str() << manager.IndexToNode(index).value();

    LOG(INFO) << "Distance of the route: " << route_distance << "m";

    max_route_distance = std::max(route_distance, max_route_distance);

  }

  LOG(INFO) << "Maximum of the route distances: " << max_route_distance << "m";

  LOG(INFO) << "";

  LOG(INFO) << "Problem solved in " << routing.solver()->wall_time() << "ms";

}

// [END solution_printer]


void VrpStartsEnds() {

  // Instantiate the data problem.

  // [START data]

  DataModel data;

  // [END data]


  // Create Routing Index Manager

  // [START index_manager]

  RoutingIndexManager manager(data.distance_matrix.size(), data.num_vehicles,

                              data.starts, data.ends);

  // [END index_manager]


  // Create Routing Model.

  // [START routing_model]

  RoutingModel routing(manager);

  // [END routing_model]


  // Create and register a transit callback.

  // [START transit_callback]

  const int transit_callback_index = routing.RegisterTransitCallback(

      [&data, &manager](const int64_t from_index,

                        const int64_t to_index) -> int64_t {

        // Convert from routing variable Index to distance matrix NodeIndex.

        const int from_node = manager.IndexToNode(from_index).value();

        const int to_node = manager.IndexToNode(to_index).value();

        return data.distance_matrix[from_node][to_node];

      });

  // [END transit_callback]


  // Define cost of each arc.

  // [START arc_cost]

  routing.SetArcCostEvaluatorOfAllVehicles(transit_callback_index);

  // [END arc_cost]


  // Add Distance constraint.

  // [START distance_constraint]

  routing.AddDimension(transit_callback_index, 0, 2000,

                       /*fix_start_cumul_to_zero=*/true, "Distance");

  routing.GetMutableDimension("Distance")->SetGlobalSpanCostCoefficient(100);

  // [END distance_constraint]


  // Setting first solution heuristic.

  // [START parameters]

  RoutingSearchParameters searchParameters = DefaultRoutingSearchParameters();

  searchParameters.set_first_solution_strategy(

      FirstSolutionStrategy::PATH_CHEAPEST_ARC);

  // [END parameters]


  // Solve the problem.

  // [START solve]

  const Assignment* solution = routing.SolveWithParameters(searchParameters);

  // [END solve]


  // Print solution on console.

  // [START print_solution]

  PrintSolution(data, manager, routing, *solution);

  // [END print_solution]

}

}  // namespace operations_research


int main(int /*argc*/, char* /*argv*/[]) {

  operations_research::VrpStartsEnds();

  return EXIT_SUCCESS;

}

// [END program]

logging.h

operations_research::FirstSolutionStrategy::PATH_CHEAPEST_ARC
static constexpr Value PATH_CHEAPEST_ARC
Definition routing_enums.pb.h:670

constraint_solver.h

main
int main(int argc, char **argv)
Definition fz.cc:218

operations_research
OR-Tools root namespace.
Definition binary_indexed_tree.h:21

operations_research::solution
Select next search node to expand Select next item_i to add this new search node to the search Generate a new search node where item_i is not in the knapsack Check validity of this new partial solution(using propagators) - If valid

operations_research::DefaultRoutingSearchParameters
RoutingSearchParameters DefaultRoutingSearchParameters()
Definition routing_parameters.cc:263

routing.h
The vehicle routing library lets one model and solve generic vehicle routing problems ranging from th...

routing_enums.pb.h

routing_index_manager.h

routing_parameters.h