Exemple #1
0
        private IRoute Improve(MaxTimeProblem problem,
                               MaxTimeSolution solution, double max, int currentRouteIdx)
        {
            // the current route.
            IRoute currentRoute = solution.Route(currentRouteIdx);

            for (int routeIdx = 0; routeIdx < solution.Count; routeIdx++)
            { // apply the intra-route heurstic between the new and all existing routes.
                if (routeIdx != currentRouteIdx &&
                    this.Overlaps(problem, solution.Route(routeIdx), solution.Route(currentRouteIdx)))
                {     // only check routes that overlap.
                    if (this.ImproveInterRoute(problem, solution, routeIdx, currentRouteIdx, max))
                    { // an improvement was found, again to the intra operators.
                        if (!solution.IsValid())
                        {
                            throw new Exception();
                        }

                        solution[currentRouteIdx] = this.ImproveIntraRoute(problem, currentRoute, solution[currentRouteIdx]);
                        solution[routeIdx]        = this.ImproveIntraRoute(problem, solution.Route(routeIdx), solution[routeIdx]);

                        // recalculate weights.
                        solution[currentRouteIdx] = problem.Time(solution.Route(currentRouteIdx));
                        solution[routeIdx]        = problem.Time(solution.Route(routeIdx));
                    }
                }
            }

            return(solution.Route(solution.Count - 1));
        }
        /// <summary>
        /// Executes a solver procedure.
        /// </summary>
        /// <param name="problem"></param>
        /// <returns></returns>
        internal override MaxTimeSolution Solve(MaxTimeProblem problem)
        {
            MaxTimeCalculator calculator = new MaxTimeCalculator(problem);

            // get the seed customers.
            ICollection<int> seeds = _seed_selector.SelectSeeds(
                problem, _k);
            double[] weights = new double[seeds.Count];

            // start the seed routes.
            List<int> selectable_customers = problem.Customers;
            MaxTimeSolution routes = new MaxTimeSolution(
                problem.Size, true);
            foreach (int seed in seeds)
            {
                routes.Add(seed);
                selectable_customers.Remove(seed);
            }

            if (!routes.IsValid())
            {
                throw new Exception();
            }

            // keep a list of cheapest insertions.
            IInsertionCosts costs = new BinaryHeapInsertionCosts();

            // keep looping until all customers have been placed.
            while (selectable_customers.Count > 0)
            {
                // try and place into every route.
                CheapestInsertionResult best_result = new CheapestInsertionResult();
                best_result.Increase = float.MaxValue;
                int best_route_idx = -1;

                CheapestInsertionResult best_result_above_max = new CheapestInsertionResult();
                best_result_above_max.Increase = float.MaxValue;
                int best_route_above_max_idx = -1;

                for (int route_idx = 0; route_idx < routes.Count; route_idx++)
                {
                    IRoute current_route = routes.Route(route_idx);

                    // choose the next customer.
                    CheapestInsertionResult result =
                        CheapestInsertionHelper.CalculateBestPlacement(problem, current_route, selectable_customers, costs);
                    if (result.Customer == result.CustomerAfter)
                    {
                        throw new Exception();
                    }
                    // get the current weight
                    double weight = weights[route_idx];
                    if (result.Increase < best_result.Increase)
                    {
                        if (weight + result.Increase + calculator.DeliveryTime < problem.Max.Value)
                        { // route will still be inside bounds.
                            best_result = result;
                            best_route_idx = route_idx;
                        }
                        else
                        { // route will become above max.
                            if (result.Increase < best_result_above_max.Increase)
                            {
                                best_result_above_max = result;
                                best_route_above_max_idx = route_idx;
                            }
                        }
                    }
                }

                // do the placement if a placement is found without max violation.
                // else do the placement in the above max route.
                CheapestInsertionResult placement_result = new CheapestInsertionResult();
                placement_result.Increase = double.MaxValue;
                int placement_result_idx = -1;
                if (best_route_idx >= 0)
                { // best placement found.
                    placement_result = best_result;
                    placement_result_idx = best_route_idx;
                }
                else
                { // best placement found but only above max.
                    placement_result = best_result_above_max;
                    placement_result_idx = best_route_above_max_idx;
                }

                // do the actual placement.
                weights[placement_result_idx] = calculator.CalculateOneRouteIncrease(
                    weights[placement_result_idx], placement_result.Increase);
                selectable_customers.Remove(placement_result.Customer);
                //routes.Route(placement_result_idx).InsertAfterAndRemove(
                //    placement_result.CustomerBefore, placement_result.Customer, placement_result.CustomerAfter);
                routes.Route(placement_result_idx).InsertAfter(
                    placement_result.CustomerBefore, placement_result.Customer);

                if (!routes.IsValid())
                {
                    throw new Exception();
                }
            }

            return routes;
        }
        /// <summary>
        /// Applies inter-improvements by exchanging parts of the route(s).
        /// </summary>
        /// <param name="problem"></param>
        /// <param name="solution"></param>
        /// <param name="route1_idx"></param>
        /// <param name="route2_idx"></param>
        /// <param name="max"></param>
        /// <returns></returns>
        public bool Improve(MaxTimeProblem problem, MaxTimeSolution solution, 
            int route1_idx, int route2_idx, double max)
        {
            int max_window = 50;

            IRoute route1 = solution.Route(route1_idx);
            IRoute route2 = solution.Route(route2_idx);

            int route1_customers = route1.Count;
            int route2_customers = route2.Count;

            double[] route1_cumul = problem.TimeCumul(route1);
            double[] route2_cumul = problem.TimeCumul(route2);

            // build all edge weights.
            List<Edge> route1_edges = new List<Edge>(route1.Edges());
            List<Edge> route2_edges = new List<Edge>(route2.Edges());
            double[] route1_weights = new double[route1_edges.Count];
            for (int idx = 0; idx < route1_edges.Count; idx++)
            {
                Edge edge = route1_edges[idx];
                route1_weights[idx] = problem.WeightMatrix[edge.From][edge.To];
            }
            double[] route2_weights = new double[route2_edges.Count];
            for (int idx = 0; idx < route2_edges.Count; idx++)
            {
                Edge edge = route2_edges[idx];
                route2_weights[idx] = problem.WeightMatrix[edge.From][edge.To];
            }

            List<EdgePair> route2_pairs = new List<EdgePair>();
            for (int i_idx = 0; i_idx < route2_edges.Count - 2; i_idx++)
            {
                Edge i = route2_edges[i_idx];
                double i_weight = route2_weights[i_idx];
                double weight_before_i = route2_cumul[i_idx];

                int k_idx_max = route2_edges.Count;
                if (k_idx_max > i_idx + 2 + max_window)
                {
                    k_idx_max = i_idx + 2 + max_window;
                }
                for (int k_idx = i_idx + 2; k_idx < k_idx_max; k_idx++)
                {
                    Edge k = route2_edges[k_idx];
                    double k_weight = route2_weights[k_idx];
                    double weight_after_k = route2_cumul[route2_cumul.Length - 1] - route2_cumul[k_idx + 1];
                    double weight_between_route = route2_cumul[k_idx] - route2_cumul[i_idx + 1];

                    route2_pairs.Add(new EdgePair()
                    {
                        First = i,
                        FirstWeight = i_weight,
                        Second = k,
                        SecondWeight = k_weight,
                        Between = new List<int>(route2.Between(i.To, k.From)),
                        WeightTotal = i_weight + k_weight,
                        WeightAfter = weight_after_k,
                        WeightBefore = weight_before_i,
                        WeightBetween = weight_between_route,
                        CustomersBetween = k_idx - i_idx
                    });
                }
            }

            // build all edge pairs.
            for (int i_idx = 0; i_idx < route1_edges.Count - 2; i_idx++)
            {
                Edge i = route1_edges[i_idx];
                double i_weight = route1_weights[i_idx];
                double weight_before_i = route1_cumul[i_idx];

                int k_idx_max = route1_edges.Count;
                if (k_idx_max > i_idx + 2 + max_window)
                {
                    k_idx_max = i_idx + 2 + max_window;
                }
                for (int k_idx = i_idx + 2; k_idx < k_idx_max; k_idx++)
                {
                    Edge k = route1_edges[k_idx];
                    double k_weight = route1_weights[k_idx];
                    double weight_after_k = route1_cumul[route1_cumul.Length - 1] - route1_cumul[k_idx + 1];
                    double weight_between_route = route1_cumul[k_idx] - route1_cumul[i_idx + 1];

                    EdgePair pair1 = new EdgePair()
                    {
                        First = i,
                        FirstWeight = i_weight,
                        Second = k,
                        SecondWeight = k_weight,
                        Between = new List<int>(route1.Between(i.To, k.From)),
                        WeightTotal = i_weight + k_weight,
                        WeightAfter = weight_after_k,
                        WeightBefore = weight_before_i,
                        WeightBetween = weight_between_route,
                        CustomersBetween = k_idx - i_idx
                    };

                    foreach (EdgePair pair2 in route2_pairs)
                    {
                        double existing_weight = pair1.WeightTotal + pair2.WeightTotal;

                        //double new_weight = 0;

                        // get first route new.
                        double new_weight = problem.WeightMatrix[pair1.First.From][pair2.First.To];
                        //new_weight = first_route1_new;
                        if (new_weight > existing_weight - 0.001)
                        {
                            continue;
                        }

                        double first_route2_new = problem.WeightMatrix[pair2.First.From][pair1.First.To];
                        new_weight = new_weight + first_route2_new;
                        if (new_weight > existing_weight - 0.001)
                        {
                            continue;
                        }

                        double second_route1_new = problem.WeightMatrix[pair1.Second.From][pair2.Second.To];
                        new_weight = new_weight + second_route1_new;
                        if (new_weight > existing_weight - 0.001)
                        {
                            continue;
                        }

                        double second_route2_new = problem.WeightMatrix[pair2.Second.From][pair1.Second.To];
                        new_weight = new_weight + second_route2_new;

                        if (new_weight < existing_weight - 0.001)
                        { // there is a decrease in total weight; check bounds.
                            double route1_weight = pair1.WeightBefore + pair2.WeightBetween + pair1.WeightAfter;
                            double route2_weight = pair2.WeightBefore + pair1.WeightBetween + pair2.WeightAfter;

                            // calculate the maximum.
                            int route1_customers_between = pair1.CustomersBetween;
                            int route2_customers_between = pair1.CustomersBetween;
                            route1_weight = problem.Time(route1_weight,
                                route1_customers - route1_customers_between + route2_customers_between);
                            route2_weight = problem.Time(route2_weight,
                                route2_customers - route2_customers_between + route1_customers_between);

                            if (route1_weight < max && route2_weight < max)
                            {
            //                                MaxTimeSolution solution_copy = solution.Clone() as MaxTimeSolution;

                                List<int> route1_between = pair1.Between;
                                List<int> route2_between = pair2.Between;

                                route1.ReplaceEdgeFrom(pair1.First.From, pair1.Second.To);
                                route2.ReplaceEdgeFrom(pair2.First.From, pair2.Second.To);

                                int previous = pair1.First.From;
                                for (int idx = 0; idx < route2_between.Count; idx++)
                                {
                                    route1.ReplaceEdgeFrom(previous, route2_between[idx]);
                                    previous = route2_between[idx];
                                }
                                route1.ReplaceEdgeFrom(previous, pair1.Second.To);

                                previous = pair2.First.From;
                                for (int idx = 0; idx < route1_between.Count; idx++)
                                {
                                    route2.ReplaceEdgeFrom(previous, route1_between[idx]);
                                    previous = route1_between[idx];
                                }
                                route2.ReplaceEdgeFrom(previous, pair2.Second.To);

                                if (!solution.IsValid())
                                {
                                    throw new Exception();
                                }
                                return true;
                            }
                        }
                    }
                }
            }
            return false;
        }
Exemple #4
0
        /// <summary>
        /// Applies inter-improvements by exchanging parts of the route(s).
        /// </summary>
        /// <param name="problem"></param>
        /// <param name="solution"></param>
        /// <param name="route1_idx"></param>
        /// <param name="route2_idx"></param>
        /// <param name="max"></param>
        /// <returns></returns>
        public bool Improve(MaxTimeProblem problem, MaxTimeSolution solution,
                            int route1_idx, int route2_idx, double max)
        {
            int max_window = 40;

            IRoute route1 = solution.Route(route1_idx);
            IRoute route2 = solution.Route(route2_idx);

            int route1_customers = route1.Count;
            int route2_customers = route2.Count;

            double[] route1_cumul = problem.TimeCumul(route1);
            double[] route2_cumul = problem.TimeCumul(route2);

            // build all edge weights.
            List <Edge> route1_edges = new List <Edge>(route1.Edges());
            List <Edge> route2_edges = new List <Edge>(route2.Edges());

            double[] route1_weights = new double[route1_edges.Count];
            for (int idx = 0; idx < route1_edges.Count; idx++)
            {
                Edge edge = route1_edges[idx];
                route1_weights[idx] = problem.WeightMatrix[edge.From][edge.To];
            }
            double[] route2_weights = new double[route2_edges.Count];
            for (int idx = 0; idx < route2_edges.Count; idx++)
            {
                Edge edge = route2_edges[idx];
                route2_weights[idx] = problem.WeightMatrix[edge.From][edge.To];
            }

            List <EdgePair> route2_pairs = new List <EdgePair>();

            for (int i_idx = 0; i_idx < route2_edges.Count - 2; i_idx++)
            {
                Edge   i               = route2_edges[i_idx];
                double i_weight        = route2_weights[i_idx];
                double weight_before_i = route2_cumul[i_idx];

                int k_idx_max = route2_edges.Count;
                if (k_idx_max > i_idx + 2 + max_window)
                {
                    k_idx_max = i_idx + 2 + max_window;
                }
                for (int k_idx = i_idx + 2; k_idx < k_idx_max; k_idx++)
                {
                    Edge   k                    = route2_edges[k_idx];
                    double k_weight             = route2_weights[k_idx];
                    double weight_after_k       = route2_cumul[route2_cumul.Length - 1] - route2_cumul[k_idx + 1];
                    double weight_between_route = route2_cumul[k_idx] - route2_cumul[i_idx + 1];

                    route2_pairs.Add(new EdgePair()
                    {
                        First            = i,
                        FirstWeight      = i_weight,
                        Second           = k,
                        SecondWeight     = k_weight,
                        Between          = new List <int>(route2.Between(i.To, k.From)),
                        WeightTotal      = i_weight + k_weight,
                        WeightAfter      = weight_after_k,
                        WeightBefore     = weight_before_i,
                        WeightBetween    = weight_between_route,
                        CustomersBetween = k_idx - i_idx
                    });
                }
            }

            // build all edge pairs.
            for (int i_idx = 0; i_idx < route1_edges.Count - 2; i_idx++)
            {
                Edge   i               = route1_edges[i_idx];
                double i_weight        = route1_weights[i_idx];
                double weight_before_i = route1_cumul[i_idx];

                int k_idx_max = route1_edges.Count;
                if (k_idx_max > i_idx + 2 + max_window)
                {
                    k_idx_max = i_idx + 2 + max_window;
                }
                for (int k_idx = i_idx + 2; k_idx < k_idx_max; k_idx++)
                {
                    Edge   k                    = route1_edges[k_idx];
                    double k_weight             = route1_weights[k_idx];
                    double weight_after_k       = route1_cumul[route1_cumul.Length - 1] - route1_cumul[k_idx + 1];
                    double weight_between_route = route1_cumul[k_idx] - route1_cumul[i_idx + 1];

                    EdgePair pair1 = new EdgePair()
                    {
                        First            = i,
                        FirstWeight      = i_weight,
                        Second           = k,
                        SecondWeight     = k_weight,
                        Between          = new List <int>(route1.Between(i.To, k.From)),
                        WeightTotal      = i_weight + k_weight,
                        WeightAfter      = weight_after_k,
                        WeightBefore     = weight_before_i,
                        WeightBetween    = weight_between_route,
                        CustomersBetween = k_idx - i_idx
                    };

                    foreach (EdgePair pair2 in route2_pairs)
                    {
                        double existing_weight = pair1.WeightTotal + pair2.WeightTotal;

                        //double new_weight = 0;

                        // get first route new.
                        double new_weight = problem.WeightMatrix[pair1.First.From][pair2.First.To];
                        //new_weight = first_route1_new;
                        if (new_weight > existing_weight - 0.001)
                        {
                            continue;
                        }

                        double first_route2_new = problem.WeightMatrix[pair2.First.From][pair1.First.To];
                        new_weight = new_weight + first_route2_new;
                        if (new_weight > existing_weight - 0.001)
                        {
                            continue;
                        }

                        double second_route1_new = problem.WeightMatrix[pair1.Second.From][pair2.Second.To];
                        new_weight = new_weight + second_route1_new;
                        if (new_weight > existing_weight - 0.001)
                        {
                            continue;
                        }

                        double second_route2_new = problem.WeightMatrix[pair2.Second.From][pair1.Second.To];
                        new_weight = new_weight + second_route2_new;

                        if (new_weight < existing_weight - 0.001)
                        { // there is a decrease in total weight; check bounds.
                            double route1_weight = pair1.WeightBefore + pair2.WeightBetween + pair1.WeightAfter;
                            double route2_weight = pair2.WeightBefore + pair1.WeightBetween + pair2.WeightAfter;

                            // calculate the maximum.
                            int route1_customers_between = pair1.CustomersBetween;
                            int route2_customers_between = pair1.CustomersBetween;
                            route1_weight = problem.Time(route1_weight,
                                                         route1_customers - route1_customers_between + route2_customers_between);
                            route2_weight = problem.Time(route2_weight,
                                                         route2_customers - route2_customers_between + route1_customers_between);

                            if (route1_weight < max && route2_weight < max)
                            {
                                MaxTimeSolution solution_copy = solution.Clone() as MaxTimeSolution;

                                List <int> route1_between = pair1.Between;
                                List <int> route2_between = pair2.Between;

                                route1.ReplaceEdgeFrom(pair1.First.From, pair1.Second.To);
                                route2.ReplaceEdgeFrom(pair2.First.From, pair2.Second.To);

                                int previous = pair1.First.From;
                                for (int idx = 0; idx < route2_between.Count; idx++)
                                {
                                    route1.ReplaceEdgeFrom(previous, route2_between[idx]);
                                    previous = route2_between[idx];
                                }
                                route1.ReplaceEdgeFrom(previous, pair1.Second.To);

                                previous = pair2.First.From;
                                for (int idx = 0; idx < route1_between.Count; idx++)
                                {
                                    route2.ReplaceEdgeFrom(previous, route1_between[idx]);
                                    previous = route1_between[idx];
                                }
                                route2.ReplaceEdgeFrom(previous, pair2.Second.To);

                                if (!solution.IsValid())
                                {
                                    throw new Exception();
                                }
                                return(true);
                            }
                        }
                    }
                }
            }
            return(false);
        }
        /// <summary>
        /// Calculates a solution.
        /// </summary>
        /// <param name="problem"></param>
        /// <returns></returns>
        internal override MaxTimeSolution Solve(MaxTimeProblem problem)
        {
            // create the calculator.
            MaxTimeCalculator calculator = new MaxTimeCalculator(problem);

            // create the solution.
            MaxTimeSolution solution = new MaxTimeSolution(problem.Size, true);

            double max = problem.Max.Value;

            // keep placing customer until none are left.
            List<int> customers = new List<int>(problem.Customers);

            // create n routes.
            for (int customer = 0; customer < customers.Count; customer++)
            {
                solution.Add(customer);
                solution[solution.Count - 1] = calculator.CalculateOneRouteIncrease(
                    0, 0);
            }

            // creates a result.
            MergeResult result = new MergeResult();
            result.Weight = double.MaxValue;

            // loop over all route pairs and merge the smallest merge.
            while (result != null)
            { // keep looping until there is no result anymore.
                result = new MergeResult();
                result.Weight = double.MaxValue;

                for (int route1_idx = 1; route1_idx < solution.Count; route1_idx++)
                { // keep looping over all routes.
                    for (int route2_idx = 0; route2_idx < solution.Count; route2_idx++)
                    { // keep looping over all routes.
                        if (route1_idx == route2_idx)
                        { // only consider different routes.
                            break;
                        }

                        // calculate the merge result.
                        MergeResult current_result = this.TryMerge(problem, solution,
                            route1_idx, route2_idx, problem.Max.Value);

                        // evaluate the current result.
                        if (current_result != null && current_result.Weight < result.Weight)
                        { // current result is best.
                            result = current_result;
                        }
                    }
                }

                // evaluate the result.
                if (result.Weight < double.MaxValue)
                { // there is a result; apply it!
                    IRoute source = solution.Route(result.RouteSourceId);
                    IRoute target = solution.Route(result.RouteTargetId);

                    //string source_string = source.ToString();
                    //string target_string = target.ToString();

                    if (target.Count > 1 && target.First == target.GetNeigbours(result.CustomerTargetSource)[0])
                    {
                        //throw new Exception();
                    }

                    // create an enumeration of all customers of source in the correct order.
                    IEnumerable<int> source_between = new List<int>(
                        source.Between(result.CustomerSourceSource, result.CustomerSourceTarget));

                    // insert after the complete source.
                    int previous = result.CustomerTargetSource;
                    int next = target.GetNeigbours(result.CustomerTargetSource)[0];
                    foreach (int source_customer in source_between)
                    {
                        // insert.
                        target.ReplaceEdgeFrom(previous, source_customer);

                        previous = source_customer; // update previous.
                    }
                    target.ReplaceEdgeFrom(previous, next);

                    // remove the source route.
                    solution.Remove(result.RouteSourceId);
                    solution.RemoveWeight(result.RouteTargetId);

                    // calculate the weight of the new route.
                    solution[result.RouteTargetId] = solution[result.RouteTargetId] + result.Weight +
                        solution[result.RouteSourceId];

                    if (!solution.IsValid())
                    {
                        throw new Exception();
                    }
                }
                else
                { // set the result null.
                    result = null;
                }
            }

            return solution;
        }
Exemple #6
0
        /// <summary>
        /// Executes a solver procedure.
        /// </summary>
        /// <param name="problem"></param>
        /// <returns></returns>
        internal override MaxTimeSolution Solve(MaxTimeProblem problem)
        {
            // create the solution.
            var solution = new MaxTimeSolution(problem.Size);

            // keep placing customer until none are left.
            var customers = new List <int>(problem.Customers);

            customers.RemoveAt(0);

            double max = problem.Max.Value - (problem.Max.Value * _deltaPercentage);

            // keep a list of cheapest insertions.
            IInsertionCosts costs      = new BinaryHeapInsertionCosts();
            double          percentage = _thresholdPercentage;

            while (customers.Count > 0)
            {
                //// try and distribute the remaining customers if there are only a few left.
                //if (customers.Count < problem.Size * percentage)
                //{
                //    bool succes = true;
                //    while (succes && customers.Count > 0)
                //    {
                //        succes = false;
                //        CheapestInsertionResult best = new CheapestInsertionResult();
                //        best.Increase = float.MaxValue;
                //        int best_idx = -1;
                //        for (int route_idx = 0; route_idx < solution.Count; route_idx++)
                //        {
                //            IRoute route = solution.Route(route_idx);
                //            CheapestInsertionResult result =
                //                CheapestInsertionHelper.CalculateBestPlacement(problem, route, customers);
                //            if (best.Increase > result.Increase)
                //            {
                //                best = result;
                //                best_idx = route_idx;
                //            }
                //        }

                //        IRoute best_route = solution.Route(best_idx);
                //        double route_time = problem.Time(best_route);
                //        if (route_time + best.Increase < max)
                //        { // insert the customer.
                //            best_route.InsertAfter(best.CustomerBefore, best.Customer);
                //            customers.Remove(best.Customer);

                //            this.Improve(problem, solution, max, best_idx);

                //            succes = true;
                //        }
                //    }
                //}

                // select a customer using some heuristic.
                int customer = this.SelectSeed(problem, problem.MaxTimeCalculator, solution, customers);
                customers.Remove(customer);

                // start a route r.
                IRoute currentRoute = solution.Add(customer);
                solution[solution.Count - 1] = 0;

                while (customers.Count > 0)
                {
                    // calculate the best placement.
                    CheapestInsertionResult result;
                    if (_useSeedCost)
                    { // use the seed cost; the cost to the seed customer.
                        result = CheapestInsertionHelper.CalculateBestPlacement(problem, currentRoute, customers,
                                                                                customer, 0.7);

                        // calculate the 'real' increase.
                        result.Increase = (problem.WeightMatrix[result.CustomerBefore][result.Customer] +
                                           problem.WeightMatrix[result.Customer][result.CustomerAfter]) -
                                          problem.WeightMatrix[result.CustomerBefore][result.CustomerAfter];
                    }
                    else
                    { // just use cheapest insertion.
                        result = CheapestInsertionHelper.CalculateBestPlacement(problem, currentRoute, customers, costs);
                    }

                    // calculate the new weight.
                    solution[solution.Count - 1] = problem.Time(solution.Route(solution.Count - 1));
                    double potentialWeight = problem.MaxTimeCalculator.CalculateOneRouteIncrease(solution[solution.Count - 1],
                                                                                                 result.Increase);
                    // cram as many customers into one route as possible.
                    if (potentialWeight < max)
                    {
                        // insert the customer, it is
                        customers.Remove(result.Customer);
                        currentRoute.InsertAfter(result.CustomerBefore, result.Customer);

                        // free some memory in the costs list.
                        costs.Remove(result.CustomerBefore, result.CustomerAfter);

                        // update the cost of the route.
                        solution[solution.Count - 1] = potentialWeight;

                        // improve if needed.
                        if (((problem.Size - customers.Count) % _k) == 0)
                        { // an improvement is decided.
                            // apply the inter-route improvements.
                            var copy = (solution.Clone() as MaxTimeSolution);

                            int countBefore = solution.Route(solution.Count - 1).Count;

                            solution[solution.Count - 1] = this.ImproveIntraRoute(problem,
                                                                                  solution.Route(solution.Count - 1), solution[solution.Count - 1]);
                            if (!solution.IsValid())
                            {
                                throw new Exception();
                            }
                            int countAfter = solution.Route(solution.Count - 1).Count;
                            if (countAfter != countBefore)
                            {
                                throw new Exception();
                            }

                            // also to the inter-improvements.
                            currentRoute = this.Improve(problem, solution, max, solution.Count - 1);
                        }
                    }
                    else
                    {// ok we are done!
                        this.Improve(problem, solution, max, solution.Count - 1);

                        // break the route.
                        break;
                    }
                }
            }

            // remove empty routes.
            for (int routeIdx = solution.Count - 1; routeIdx >= 0; routeIdx--)
            {
                if (solution.Route(routeIdx).IsEmpty)
                {
                    solution.Remove(routeIdx);
                }
            }

            return(solution);
        }
Exemple #7
0
        /// <summary>
        /// Executes a solver procedure.
        /// </summary>
        /// <param name="problem"></param>
        /// <returns></returns>
        internal override MaxTimeSolution Solve(MaxTimeProblem problem)
        {
            // create the solution.
            MaxTimeSolution solution = new MaxTimeSolution(problem.Size, true);

            // keep placing customer until none are left.
            List <int> customers = new List <int>(problem.Customers);

            double max = problem.Max.Value - (problem.Max.Value * _delta_percentage);

            // keep a list of cheapest insertions.
            IInsertionCosts costs      = new BinaryHeapInsertionCosts();
            double          percentage = _threshold_percentage;

            while (customers.Count > 0)
            {
                // try and distribute the remaining customers if there are only a few left.
                if (customers.Count < problem.Size * percentage)
                {
                    bool succes = true;
                    while (succes && customers.Count > 0)
                    {
                        succes = false;
                        CheapestInsertionResult best = new CheapestInsertionResult();
                        best.Increase = float.MaxValue;
                        int best_idx = -1;
                        for (int route_idx = 0; route_idx < solution.Count; route_idx++)
                        {
                            IRoute route = solution.Route(route_idx);
                            CheapestInsertionResult result =
                                CheapestInsertionHelper.CalculateBestPlacement(problem, route, customers);
                            if (best.Increase > result.Increase)
                            {
                                best     = result;
                                best_idx = route_idx;
                            }
                        }

                        IRoute best_route = solution.Route(best_idx);
                        double route_time = problem.Time(best_route);
                        if (route_time + best.Increase < max)
                        { // insert the customer.
                            best_route.InsertAfter(best.CustomerBefore, best.Customer);
                            customers.Remove(best.Customer);

                            this.Improve(problem, solution, max, best_idx);

                            succes = true;
                        }
                    }
                }

                // select a customer using some heuristic.
                if (customers.Count > 0)
                {
                    // select a customer using some heuristic.
                    int customer = -1;
                    if (_use_seed)
                    { // use a seeding heuristic.
                        customer = this.SelectSeed(problem, problem.MaxTimeCalculator, solution, customers);
                    }
                    else
                    { // just select a random customer.
                        customer = customers[Math.Random.StaticRandomGenerator.Get().Generate(customers.Count)];
                    }
                    customers.Remove(customer);

                    // start a route r.
                    IRoute current_route = solution.Add(customer);
                    solution[solution.Count - 1] = 0;

                    while (customers.Count > 0)
                    {
                        //OsmSharp.IO.Output.OutputStreamHost.WriteLine("{0}/{1} placed!",
                        //    customers.Count, problem.Size);

                        // calculate the best placement.
                        CheapestInsertionResult result;
                        if (_use_seed_cost)
                        { // use the seed cost; the cost to the seed customer.
                            result = CheapestInsertionHelper.CalculateBestPlacement(problem, current_route, customers,
                                                                                    customer, _lambda);

                            // calculate the 'real' increase.
                            result.Increase = (problem.WeightMatrix[result.CustomerBefore][result.Customer] +
                                               problem.WeightMatrix[result.Customer][result.CustomerAfter]) -
                                              problem.WeightMatrix[result.CustomerBefore][result.CustomerAfter];
                        }
                        else
                        { // just use cheapest insertion.
                            result = CheapestInsertionHelper.CalculateBestPlacement(problem, current_route, customers, costs);
                        }

                        // calculate the new weight.
                        solution[solution.Count - 1] = problem.Time(solution.Route(solution.Count - 1));
                        double potential_weight = problem.MaxTimeCalculator.CalculateOneRouteIncrease(solution[solution.Count - 1],
                                                                                                      result.Increase);
                        // cram as many customers into one route as possible.
                        if (potential_weight < max)
                        {
                            // insert the customer, it is
                            customers.Remove(result.Customer);
                            current_route.InsertAfter(result.CustomerBefore, result.Customer);

                            // free some memory in the costs list.
                            costs.Remove(result.CustomerBefore, result.CustomerAfter);

                            // update the cost of the route.
                            solution[solution.Count - 1] = potential_weight;

                            // improve if needed.
                            if (((problem.Size - customers.Count) % _k) == 0)
                            { // an improvement is descided.
                                // apply the inter-route improvements.
                                int count_before = solution.Route(solution.Count - 1).Count;

                                solution[solution.Count - 1] = this.ImproveIntraRoute(problem,
                                                                                      current_route, solution[solution.Count - 1]);
                                if (!solution.IsValid())
                                {
                                    throw new Exception();
                                }
                                int count_after = solution.Route(solution.Count - 1).Count;

                                // also to the inter-improvements.
                                current_route = this.Improve(problem, solution, max, solution.Count - 1);
                            }
                        }
                        else
                        {// ok we are done!
                            this.Improve(problem, solution, max, solution.Count - 1);

                            // break the route.
                            break;
                        }
                    }
                    //else
                    //{// ok we are done!
                    //    solution[solution.Count - 1] = this.ImproveIntraRoute(problem,
                    //        current_route, solution[solution.Count - 1]);

                    //    if (!solution.IsValid())
                    //    {
                    //        throw new Exception();
                    //    }
                    //    int count_after = solution.Route(solution.Count - 1).Count;

                    //    this.Improve(problem, solution, max, solution.Count - 1);

                    //    // break the route.
                    //    break;
                    //}
                }
            }

            // remove empty routes.
            for (int route_idx = solution.Count - 1; route_idx >= 0; route_idx--)
            {
                if (solution.Route(route_idx).IsEmpty)
                {
                    solution.Remove(route_idx);
                }
            }

            return(solution);
        }
Exemple #8
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        internal override MaxTimeSolution Solve(MaxTimeProblem problem)
        {
            MaxTimeCalculator calculator = new MaxTimeCalculator(
                problem);

            // generate a ATSP solution.
            IRoute tsp_solution = _tsp_solution;

            if (tsp_solution == null)
            {
                tsp_solution = _tsp_solver.Solve(new TSPProblem(problem));
            }

            // generate subtours from this solution.
            MaxTimeSolution solution = new MaxTimeSolution(problem.Size, true);

            // select a random start point.
            int start = OsmSharp.Math.Random.StaticRandomGenerator.Get().Generate(problem.Size);

            // start the first tour.
            int placed   = 0;
            int previous = -1;

            // place the first customer.
            double weight       = 0;
            double total_weight = 0;
            IRoute route        = solution.Add(start);

            previous = start;

            while (placed < problem.Size)
            {
                // get the next customer from the tsp solution.
                int next = tsp_solution.GetNeigbours(previous)[0];

                // get the weight to the current start.
                double weight_to_next  = problem.WeightMatrix[previous][next];
                double weight_to_start = problem.WeightMatrix[next][start];
                total_weight = calculator.CalculateOneRouteIncrease(
                    weight, weight_to_next + weight_to_start);
                weight = calculator.CalculateOneRouteIncrease(
                    weight, weight_to_next);

                if (total_weight > problem.Max.Value)
                { // start a new route.
                    route  = solution.Add(next);
                    weight = 0;
                }
                else
                { // just insert the next customer.
                    route.InsertAfter(previous, next);
                    //route.InsertAfterAndRemove(previous, next, -1);
                }

                // set the previous.
                previous = next;
                placed++;
            }

            if (!solution.IsValid())
            {
                throw new Exception();
            }

            StringBuilder builder = new StringBuilder();

            builder.Append("[");
            total_weight = 0;
            for (int idx = 0; idx < solution.Count; idx++)
            {
                //IRoute route = routes.Route(idx);
                route  = solution.Route(idx);
                weight = calculator.CalculateOneRoute(route);
                builder.Append(" ");
                builder.Append(weight);
                builder.Append(" ");

                total_weight = total_weight + weight;
            }
            builder.Append("]");
            builder.Append(total_weight);
            builder.Append(": ");
            builder.Append(calculator.Calculate(solution));
            Console.WriteLine(builder.ToString());

            return(solution);
        }
        /// <summary>
        /// Executes a solver procedure.
        /// </summary>
        /// <param name="problem"></param>
        /// <returns></returns>
        internal override MaxTimeSolution Solve(MaxTimeProblem problem)
        {
            // create the solution.
            MaxTimeSolution solution = new MaxTimeSolution(problem.Size, true);

            // keep placing customer until none are left.
            List<int> customers = new List<int>(problem.Customers);

            double max = problem.Max.Value - (problem.Max.Value * _delta_percentage);

            // keep a list of cheapest insertions.
            IInsertionCosts costs = new BinaryHeapInsertionCosts();
            double percentage = _threshold_percentage;
            while (customers.Count > 0)
            {
                // try and distribute the remaining customers if there are only a few left.
                if (customers.Count < problem.Size * percentage)
                {
                    bool succes = true;
                    while (succes && customers.Count > 0)
                    {
                        succes = false;
                        CheapestInsertionResult best = new CheapestInsertionResult();
                        best.Increase = float.MaxValue;
                        int best_idx = -1;
                        for (int route_idx = 0; route_idx < solution.Count; route_idx++)
                        {
                            IRoute route = solution.Route(route_idx);
                            CheapestInsertionResult result =
                                CheapestInsertionHelper.CalculateBestPlacement(problem, route, customers);
                            if (best.Increase > result.Increase)
                            {
                                best = result;
                                best_idx = route_idx;
                            }
                        }

                        IRoute best_route = solution.Route(best_idx);
                        double route_time = problem.Time(best_route);
                        if (route_time + best.Increase < max)
                        { // insert the customer.
                            best_route.InsertAfter(best.CustomerBefore, best.Customer);
                            customers.Remove(best.Customer);

                            this.Improve(problem, solution, max, best_idx);

                            succes = true;
                        }
                    }
                }

                // select a customer using some heuristic.
                if (customers.Count > 0)
                {
                    // select a customer using some heuristic.
                    int customer = -1;
                    if (_use_seed)
                    { // use a seeding heuristic.
                        customer = this.SelectSeed(problem, problem.MaxTimeCalculator, solution, customers);
                    }
                    else
                    { // just select a random customer.
                        customer = customers[Math.Random.StaticRandomGenerator.Get().Generate(customers.Count)];
                    }
                    customers.Remove(customer);

                    // start a route r.
                    IRoute current_route = solution.Add(customer);
                    solution[solution.Count - 1] = 0;

                    while (customers.Count > 0)
                    {
                        //OsmSharp.IO.Output.OutputStreamHost.WriteLine("{0}/{1} placed!",
                        //    customers.Count, problem.Size);

                        // calculate the best placement.
                        CheapestInsertionResult result;
                        if (_use_seed_cost)
                        { // use the seed cost; the cost to the seed customer.
                            result = CheapestInsertionHelper.CalculateBestPlacement(problem, current_route, customers,
                                customer, _lambda);

                            // calculate the 'real' increase.
                            result.Increase = (problem.WeightMatrix[result.CustomerBefore][result.Customer] +
                                problem.WeightMatrix[result.Customer][result.CustomerAfter]) -
                                problem.WeightMatrix[result.CustomerBefore][result.CustomerAfter];
                        }
                        else
                        { // just use cheapest insertion.
                            result = CheapestInsertionHelper.CalculateBestPlacement(problem, current_route, customers, costs);
                        }

                        // calculate the new weight.
                        solution[solution.Count - 1] = problem.Time(solution.Route(solution.Count - 1));
                        double potential_weight = problem.MaxTimeCalculator.CalculateOneRouteIncrease(solution[solution.Count - 1],
                            result.Increase);
                        // cram as many customers into one route as possible.
                        if (potential_weight < max)
                        {
                            // insert the customer, it is
                            customers.Remove(result.Customer);
                            current_route.InsertAfter(result.CustomerBefore, result.Customer);

                            // free some memory in the costs list.
                            costs.Remove(result.CustomerBefore, result.CustomerAfter);

                            // update the cost of the route.
                            solution[solution.Count - 1] = potential_weight;

                            // improve if needed.
                            if (((problem.Size - customers.Count) % _k) == 0)
                            { // an improvement is descided.
                                // apply the inter-route improvements.
                                int count_before = solution.Route(solution.Count - 1).Count;

                                solution[solution.Count - 1] = this.ImproveIntraRoute(problem,
                                    current_route, solution[solution.Count - 1]);
                                if (!solution.IsValid())
                                {
                                    throw new Exception();
                                }
                                int count_after = solution.Route(solution.Count - 1).Count;

                                // also to the inter-improvements.
                                current_route = this.Improve(problem, solution, max, solution.Count - 1);
                            }
                        }
                        else
                        {// ok we are done!
                            this.Improve(problem, solution, max, solution.Count - 1);

                            // break the route.
                            break;
                        }
                    }
                    //else
                    //{// ok we are done!
                    //    solution[solution.Count - 1] = this.ImproveIntraRoute(problem,
                    //        current_route, solution[solution.Count - 1]);

                    //    if (!solution.IsValid())
                    //    {
                    //        throw new Exception();
                    //    }
                    //    int count_after = solution.Route(solution.Count - 1).Count;

                    //    this.Improve(problem, solution, max, solution.Count - 1);

                    //    // break the route.
                    //    break;
                    //}
                }
            }

            // remove empty routes.
            for (int route_idx = solution.Count - 1; route_idx >= 0; route_idx--)
            {
                if (solution.Route(route_idx).IsEmpty)
                {
                    solution.Remove(route_idx);
                }
            }

            return solution;
        }
        private IRoute Improve(MaxTimeProblem problem,
            MaxTimeSolution solution, double max, int current_route_idx)
        {
            // the current route.
            IRoute current_route = solution.Route(current_route_idx);

            for (int route_idx = 0; route_idx < solution.Count; route_idx++)
            { // apply the intra-route heurstic between the new and all existing routes.
                if (route_idx != current_route_idx &&
                    this.Overlaps(problem, solution.Route(route_idx), solution.Route(current_route_idx)))
                { // only check routes that overlap.
                    if (this.ImproveInterRoute(problem, solution, route_idx, current_route_idx, max))
                    { // an improvement was found, again to the intra operators.
                        if (!solution.IsValid())
                        {
                            throw new Exception();
                        }

                        solution[current_route_idx] = this.ImproveIntraRoute(problem, current_route, solution[current_route_idx]);
                        solution[route_idx] = this.ImproveIntraRoute(problem, solution.Route(route_idx), solution[route_idx]);

                        // recalculate weights.
                        solution[current_route_idx] = problem.Time(solution.Route(current_route_idx));
                        solution[route_idx] = problem.Time(solution.Route(route_idx));
                    }
                }
            }

            return solution.Route(solution.Count - 1);
        }
        internal override MaxTimeSolution Solve(MaxTimeProblem problem)
        {
            MaxTimeCalculator calculator = new MaxTimeCalculator(
                problem);

            // generate a ATSP solution.
            IRoute tsp_solution = _tsp_solution;
            if (tsp_solution == null)
            {
                tsp_solution = _tsp_solver.Solve(new TSPProblem(problem));
            }

            // generate subtours from this solution.
            MaxTimeSolution solution = new MaxTimeSolution(problem.Size, true);

            // select a random start point.
            int start = OsmSharp.Math.Random.StaticRandomGenerator.Get().Generate(problem.Size);

            // start the first tour.
            int placed = 0;
            int previous = -1;

            // place the first customer.
            double weight = 0;
            double total_weight = 0;
            IRoute route = solution.Add(start);
            previous = start;

            while (placed < problem.Size)
            {
                // get the next customer from the tsp solution.
                int next = tsp_solution.GetNeigbours(previous)[0];

                // get the weight to the current start.
                double weight_to_next = problem.WeightMatrix[previous][next];
                double weight_to_start = problem.WeightMatrix[next][start];
                total_weight = calculator.CalculateOneRouteIncrease(
                    weight, weight_to_next + weight_to_start);
                weight = calculator.CalculateOneRouteIncrease(
                    weight, weight_to_next);

                if (total_weight > problem.Max.Value)
                { // start a new route.
                    route = solution.Add(next);
                    weight = 0;
                }
                else
                { // just insert the next customer.
                    route.InsertAfter(previous, next);
                    //route.InsertAfterAndRemove(previous, next, -1);
                }

                // set the previous.
                previous = next;
                placed++;
            }

            if (!solution.IsValid())
            {
                throw new Exception();
            }

            StringBuilder builder = new StringBuilder();
            builder.Append("[");
            total_weight = 0;
            for (int idx = 0; idx < solution.Count; idx++)
            {
                //IRoute route = routes.Route(idx);
                route = solution.Route(idx);
                weight = calculator.CalculateOneRoute(route);
                builder.Append(" ");
                builder.Append(weight);
                builder.Append(" ");

                total_weight = total_weight + weight;
            }
            builder.Append("]");
            builder.Append(total_weight);
            builder.Append(": ");
            builder.Append(calculator.Calculate(solution));
            OsmSharp.Logging.Log.TraceEvent("TSPPlacementSolver", TraceEventType.Information, builder.ToString());

            return solution;
        }
Exemple #12
0
        /// <summary>
        /// Executes a solver procedure.
        /// </summary>
        /// <param name="problem"></param>
        /// <returns></returns>
        internal override MaxTimeSolution Solve(MaxTimeProblem problem)
        {
            MaxTimeCalculator calculator = new MaxTimeCalculator(problem);

            // get the seed customers.
            ICollection <int> seeds = _seed_selector.SelectSeeds(
                problem, _k);

            double[] weights = new double[seeds.Count];

            // start the seed routes.
            List <int>      selectable_customers = problem.Customers;
            MaxTimeSolution routes = new MaxTimeSolution(
                problem.Size, true);

            foreach (int seed in seeds)
            {
                routes.Add(seed);
                selectable_customers.Remove(seed);
            }

            if (!routes.IsValid())
            {
                throw new Exception();
            }

            // keep a list of cheapest insertions.
            IInsertionCosts costs = new BinaryHeapInsertionCosts();

            // keep looping until all customers have been placed.
            while (selectable_customers.Count > 0)
            {
                // try and place into every route.
                CheapestInsertionResult best_result = new CheapestInsertionResult();
                best_result.Increase = float.MaxValue;
                int best_route_idx = -1;

                CheapestInsertionResult best_result_above_max = new CheapestInsertionResult();
                best_result_above_max.Increase = float.MaxValue;
                int best_route_above_max_idx = -1;

                for (int route_idx = 0; route_idx < routes.Count; route_idx++)
                {
                    IRoute current_route = routes.Route(route_idx);

                    // choose the next customer.
                    CheapestInsertionResult result =
                        CheapestInsertionHelper.CalculateBestPlacement(problem, current_route, selectable_customers, costs);
                    if (result.Customer == result.CustomerAfter)
                    {
                        throw new Exception();
                    }
                    // get the current weight
                    double weight = weights[route_idx];
                    if (result.Increase < best_result.Increase)
                    {
                        if (weight + result.Increase + calculator.DeliveryTime < problem.Max.Value)
                        { // route will still be inside bounds.
                            best_result    = result;
                            best_route_idx = route_idx;
                        }
                        else
                        { // route will become above max.
                            if (result.Increase < best_result_above_max.Increase)
                            {
                                best_result_above_max    = result;
                                best_route_above_max_idx = route_idx;
                            }
                        }
                    }
                }

                // do the placement if a placement is found without max violation.
                // else do the placement in the above max route.
                CheapestInsertionResult placement_result = new CheapestInsertionResult();
                placement_result.Increase = double.MaxValue;
                int placement_result_idx = -1;
                if (best_route_idx >= 0)
                { // best placement found.
                    placement_result     = best_result;
                    placement_result_idx = best_route_idx;
                }
                else
                { // best placement found but only above max.
                    placement_result     = best_result_above_max;
                    placement_result_idx = best_route_above_max_idx;
                }

                // do the actual placement.
                weights[placement_result_idx] = calculator.CalculateOneRouteIncrease(
                    weights[placement_result_idx], placement_result.Increase);
                selectable_customers.Remove(placement_result.Customer);
                //routes.Route(placement_result_idx).InsertAfterAndRemove(
                //    placement_result.CustomerBefore, placement_result.Customer, placement_result.CustomerAfter);
                routes.Route(placement_result_idx).InsertAfter(
                    placement_result.CustomerBefore, placement_result.Customer);

                if (!routes.IsValid())
                {
                    throw new Exception();
                }
            }

            return(routes);
        }
Exemple #13
0
        /// <summary>
        /// Calculates a solution.
        /// </summary>
        /// <param name="problem"></param>
        /// <returns></returns>
        internal override MaxTimeSolution Solve(MaxTimeProblem problem)
        {
            // create the calculator.
            MaxTimeCalculator calculator = new MaxTimeCalculator(problem);

            // create the solution.
            MaxTimeSolution solution = new MaxTimeSolution(problem.Size, true);

            double max = problem.Max.Value;

            // keep placing customer until none are left.
            List <int> customers = new List <int>(problem.Customers);

            // create n routes.
            for (int customer = 0; customer < customers.Count; customer++)
            {
                solution.Add(customer);
                solution[solution.Count - 1] = calculator.CalculateOneRouteIncrease(
                    0, 0);
            }

            // creates a result.
            MergeResult result = new MergeResult();

            result.Weight = double.MaxValue;

            // loop over all route pairs and merge the smallest merge.
            while (result != null)
            { // keep looping until there is no result anymore.
                result        = new MergeResult();
                result.Weight = double.MaxValue;

                for (int route1_idx = 1; route1_idx < solution.Count; route1_idx++)
                {         // keep looping over all routes.
                    for (int route2_idx = 0; route2_idx < solution.Count; route2_idx++)
                    {     // keep looping over all routes.
                        if (route1_idx == route2_idx)
                        { // only consider different routes.
                            break;
                        }

                        // calculate the merge result.
                        MergeResult current_result = this.TryMerge(problem, solution,
                                                                   route1_idx, route2_idx, problem.Max.Value);

                        // evaluate the current result.
                        if (current_result != null && current_result.Weight < result.Weight)
                        { // current result is best.
                            result = current_result;
                        }
                    }
                }

                // evaluate the result.
                if (result.Weight < double.MaxValue)
                { // there is a result; apply it!
                    IRoute source = solution.Route(result.RouteSourceId);
                    IRoute target = solution.Route(result.RouteTargetId);

                    //string source_string = source.ToString();
                    //string target_string = target.ToString();

                    if (target.Count > 1 && target.First == target.GetNeigbours(result.CustomerTargetSource)[0])
                    {
                        //throw new Exception();
                    }

                    // create an enumeration of all customers of source in the correct order.
                    IEnumerable <int> source_between = new List <int>(
                        source.Between(result.CustomerSourceSource, result.CustomerSourceTarget));

                    // insert after the complete source.
                    int previous = result.CustomerTargetSource;
                    int next     = target.GetNeigbours(result.CustomerTargetSource)[0];
                    foreach (int source_customer in source_between)
                    {
                        // insert.
                        target.ReplaceEdgeFrom(previous, source_customer);

                        previous = source_customer; // update previous.
                    }
                    target.ReplaceEdgeFrom(previous, next);

                    // remove the source route.
                    solution.Remove(result.RouteSourceId);
                    solution.RemoveWeight(result.RouteTargetId);

                    // calculate the weight of the new route.
                    solution[result.RouteTargetId] = solution[result.RouteTargetId] + result.Weight +
                                                     solution[result.RouteSourceId];

                    if (!solution.IsValid())
                    {
                        throw new Exception();
                    }
                }
                else
                { // set the result null.
                    result = null;
                }
            }

            return(solution);
        }
        /// <summary>
        /// Executes a solver procedure.
        /// </summary>
        /// <param name="problem"></param>
        /// <returns></returns>
        internal override MaxTimeSolution Solve(MaxTimeProblem problem)
        {
            // create the solution.
            var solution = new MaxTimeSolution(problem.Size);

            // keep placing customer until none are left.
            var customers = new List<int>(problem.Customers);
            customers.RemoveAt(0);

            double max = problem.Max.Value - (problem.Max.Value * _deltaPercentage);

            // keep a list of cheapest insertions.
            IInsertionCosts costs = new BinaryHeapInsertionCosts();
            //            double percentage = _thresholdPercentage;
            while (customers.Count > 0)
            {
                //// try and distribute the remaining customers if there are only a few left.
                //if (customers.Count < problem.Size * percentage)
                //{
                //    bool succes = true;
                //    while (succes && customers.Count > 0)
                //    {
                //        succes = false;
                //        CheapestInsertionResult best = new CheapestInsertionResult();
                //        best.Increase = float.MaxValue;
                //        int best_idx = -1;
                //        for (int route_idx = 0; route_idx < solution.Count; route_idx++)
                //        {
                //            IRoute route = solution.Route(route_idx);
                //            CheapestInsertionResult result =
                //                CheapestInsertionHelper.CalculateBestPlacement(problem, route, customers);
                //            if (best.Increase > result.Increase)
                //            {
                //                best = result;
                //                best_idx = route_idx;
                //            }
                //        }

                //        IRoute best_route = solution.Route(best_idx);
                //        double route_time = problem.Time(best_route);
                //        if (route_time + best.Increase < max)
                //        { // insert the customer.
                //            best_route.InsertAfter(best.CustomerBefore, best.Customer);
                //            customers.Remove(best.Customer);

                //            this.Improve(problem, solution, max, best_idx);

                //            succes = true;
                //        }
                //    }
                //}

                // select a customer using some heuristic.
                int customer = this.SelectSeed(problem, problem.MaxTimeCalculator, solution, customers);
                customers.Remove(customer);

                // start a route r.
                IRoute currentRoute = solution.Add(customer);
                solution[solution.Count - 1] = 0;

                while (customers.Count > 0)
                {
                    // calculate the best placement.
                    CheapestInsertionResult result;
                    if (_useSeedCost)
                    { // use the seed cost; the cost to the seed customer.
                        result = CheapestInsertionHelper.CalculateBestPlacement(problem, currentRoute, customers,
                            customer, 0.7);

                        // calculate the 'real' increase.
                        result.Increase = (problem.WeightMatrix[result.CustomerBefore][result.Customer] +
                            problem.WeightMatrix[result.Customer][result.CustomerAfter]) -
                            problem.WeightMatrix[result.CustomerBefore][result.CustomerAfter];
                    }
                    else
                    { // just use cheapest insertion.
                        result = CheapestInsertionHelper.CalculateBestPlacement(problem, currentRoute, customers, costs);
                    }

                    // calculate the new weight.
                    solution[solution.Count - 1] = problem.Time(solution.Route(solution.Count - 1));
                    double potentialWeight = problem.MaxTimeCalculator.CalculateOneRouteIncrease(solution[solution.Count - 1],
                        result.Increase);
                    // cram as many customers into one route as possible.
                    if (potentialWeight < max)
                    {
                        // insert the customer, it is
                        customers.Remove(result.Customer);
                        currentRoute.InsertAfter(result.CustomerBefore, result.Customer);

                        // free some memory in the costs list.
                        costs.Remove(result.CustomerBefore, result.CustomerAfter);

                        // update the cost of the route.
                        solution[solution.Count - 1] = potentialWeight;

                        // improve if needed.
                        if (((problem.Size - customers.Count) % _k) == 0)
                        { // an improvement is decided.
                            // apply the inter-route improvements.
            //                            var copy = (solution.Clone() as MaxTimeSolution);

                            int countBefore = solution.Route(solution.Count - 1).Count;

                            solution[solution.Count - 1] = this.ImproveIntraRoute(problem,
                                solution.Route(solution.Count - 1), solution[solution.Count - 1]);
                            if (!solution.IsValid())
                            {
                                throw new Exception();
                            }
                            int countAfter = solution.Route(solution.Count - 1).Count;
                            if (countAfter != countBefore)
                            {
                                throw new Exception();
                            }

                            // also to the inter-improvements.
                            currentRoute = this.Improve(problem, solution, max, solution.Count - 1);
                        }
                    }
                    else
                    {// ok we are done!
                        this.Improve(problem, solution, max, solution.Count - 1);

                        // break the route.
                        break;
                    }
                }
            }

            // remove empty routes.
            for (int routeIdx = solution.Count - 1; routeIdx >= 0; routeIdx--)
            {
                if (solution.Route(routeIdx).IsEmpty)
                {
                    solution.Remove(routeIdx);
                }
            }

            return solution;
        }
Exemple #15
0
        public void TestDepotDynamicAsymmetricMultiRouteExchanges()
        {
            // create two routes.
            // 0->11->12->13->14->15->0
            // 0->21->22->23->24->25->0
            var    multiRoute = new MaxTimeSolution(0);
            IRoute route1     = multiRoute.Add();
            var    customers  = new List <int>(route1);

            Assert.AreEqual(1, customers.Count);
            Assert.AreEqual(0, customers[0]);
            route1.InsertAfter(0, 11);
            Assert.AreEqual("0->11", route1.ToString());
            route1.InsertAfter(11, 12);
            route1.InsertAfter(12, 13);
            route1.InsertAfter(13, 14);
            route1.InsertAfter(14, 15);
            IRoute route2 = multiRoute.Add();

            customers = new List <int>(route2);
            Assert.AreEqual(1, customers.Count);
            Assert.AreEqual(0, customers[0]);
            route2.InsertAfter(0, 21);
            Assert.AreEqual("0->21", route2.ToString());
            route2.InsertAfter(21, 22);
            route2.InsertAfter(22, 23);
            route2.InsertAfter(23, 24);
            route2.InsertAfter(24, 25);

            customers = new List <int>(route1);
            Assert.AreEqual(6, customers.Count);
            Assert.AreEqual(0, customers[0]);
            Assert.AreEqual(11, customers[1]);
            Assert.AreEqual(12, customers[2]);
            Assert.AreEqual(13, customers[3]);
            Assert.AreEqual(14, customers[4]);
            Assert.AreEqual(15, customers[5]);


            customers = new List <int>(route2);
            Assert.AreEqual(6, customers.Count);
            Assert.AreEqual(0, customers[0]);
            Assert.AreEqual(21, customers[1]);
            Assert.AreEqual(22, customers[2]);
            Assert.AreEqual(23, customers[3]);
            Assert.AreEqual(24, customers[4]);
            Assert.AreEqual(25, customers[5]);

            // replace the entire first route.
            route1.ReplaceEdgeFrom(0, 0);

            route2.ReplaceEdgeFrom(25, 11);
            route2.ReplaceEdgeFrom(11, 12);
            route2.ReplaceEdgeFrom(12, 13);
            route2.ReplaceEdgeFrom(13, 14);
            route2.ReplaceEdgeFrom(14, 15);

            Assert.IsTrue(multiRoute.IsValid());

            // create two routes.
            // 0->11->12->13->14->15->0
            // 0->21->22->23->24->25->0
            multiRoute = new MaxTimeSolution(0);
            route1     = multiRoute.Add();
            customers  = new List <int>(route1);
            Assert.AreEqual(1, customers.Count);
            Assert.AreEqual(0, customers[0]);
            route1.InsertAfter(0, 11);
            Assert.AreEqual("0->11", route1.ToString());
            route1.InsertAfter(11, 12);
            route1.InsertAfter(12, 13);
            route1.InsertAfter(13, 14);
            route1.InsertAfter(14, 15);
            route2    = multiRoute.Add();
            customers = new List <int>(route2);
            Assert.AreEqual(1, customers.Count);
            Assert.AreEqual(0, customers[0]);
            route2.InsertAfter(0, 21);
            Assert.AreEqual("0->21", route2.ToString());
            route2.InsertAfter(21, 22);
            route2.InsertAfter(22, 23);
            route2.InsertAfter(23, 24);
            route2.InsertAfter(24, 25);

            // exchange parts.
            var part1 = new List <int>(route1.Between(11, 13));
            var part2 = new List <int>(route2.Between(23, 25));

            route1.ReplaceEdgeFrom(0, 14);
            route2.ReplaceEdgeFrom(22, 0);

            int previous = 0;

            for (int idx = 0; idx < part2.Count; idx++)
            {
                route1.ReplaceEdgeFrom(previous, part2[idx]);
                previous = part2[idx];
            }
            route1.ReplaceEdgeFrom(previous, 14);

            previous = 22;
            for (int idx = 0; idx < part1.Count; idx++)
            {
                route2.ReplaceEdgeFrom(previous, part1[idx]);
                previous = part1[idx];
            }
            route2.ReplaceEdgeFrom(previous, 0);

            Assert.IsTrue(multiRoute.IsValid());

            customers = new List <int>(route1);
            Assert.AreEqual(6, customers.Count);
            Assert.AreEqual(0, customers[0]);
            Assert.AreEqual(23, customers[1]);
            Assert.AreEqual(24, customers[2]);
            Assert.AreEqual(25, customers[3]);
            Assert.AreEqual(14, customers[4]);
            Assert.AreEqual(15, customers[5]);

            customers = new List <int>(route2);
            Assert.AreEqual(6, customers.Count);
            Assert.AreEqual(0, customers[0]);
            Assert.AreEqual(21, customers[1]);
            Assert.AreEqual(22, customers[2]);
            Assert.AreEqual(11, customers[3]);
            Assert.AreEqual(12, customers[4]);
            Assert.AreEqual(13, customers[5]);

            // create two routes.
            // 0->11->12->13->14->15->0
            // 0->21->22->23->24->25->0
            multiRoute = new MaxTimeSolution(0);
            route1     = multiRoute.Add();
            customers  = new List <int>(route1);
            Assert.AreEqual(1, customers.Count);
            Assert.AreEqual(0, customers[0]);
            route1.InsertAfter(0, 11);
            Assert.AreEqual("0->11", route1.ToString());
            route1.InsertAfter(11, 12);
            route1.InsertAfter(12, 13);
            route1.InsertAfter(13, 14);
            route1.InsertAfter(14, 15);
            route2    = multiRoute.Add();
            customers = new List <int>(route2);
            Assert.AreEqual(1, customers.Count);
            Assert.AreEqual(0, customers[0]);
            route2.InsertAfter(0, 21);
            Assert.AreEqual("0->21", route2.ToString());
            route2.InsertAfter(21, 22);
            route2.InsertAfter(22, 23);
            route2.InsertAfter(23, 24);
            route2.InsertAfter(24, 25);

            route1.ReplaceEdgeFrom(12, 15);
            route1.ReplaceEdgeFrom(14, 11);
            route1.ReplaceEdgeFrom(0, 13);

            customers = new List <int>(route1);
            Assert.AreEqual(6, customers.Count);
            Assert.AreEqual(0, customers[0]);
            Assert.AreEqual(13, customers[1]);
            Assert.AreEqual(14, customers[2]);
            Assert.AreEqual(11, customers[3]);
            Assert.AreEqual(12, customers[4]);
            Assert.AreEqual(15, customers[5]);

            route1.ToString();
        }