Exemplo n.º 1
0
        // Add an order to the list
        // Keep in mind: The Travel Time is in seconds!
        public RouteSim AddOrder(Order destination, int location = -1)
        {
            RouteSim result = new RouteSim ();
            Route obj = this;
            if (this.Orders.Count == 0) {
                if (this.Clearings.Count == 0) {
                    this.Clearings.AddLast(new GarbageStop ());
                }
                result.getRoute = () => {
                    RouteStop stop = new RouteStop();
                    stop.Order = destination;
                    stop.Node = obj.Orders.AddLast(stop);

                    stop.NextClearing = obj.Clearings.Last;
                    stop.NextClearing.Value.Amount = stop.Order.CompressedVolume;

                    stop.NextClearing.Value.Last = stop.Node;

                    obj.EnRouteTime = Program.afstandenMatrix [287, destination.MatrixID].TravelTime + destination.LoadTime + Program.afstandenMatrix [destination.MatrixID, 287].TravelTime + 1800;
                    return obj;
                };
                result.time = Program.afstandenMatrix [287, destination.MatrixID].TravelTime + destination.LoadTime + Program.afstandenMatrix [destination.MatrixID, 287].TravelTime + 1800;
                if (result.time > dayTimeSec) {
                    throw new OverflowException ("Too much!");
                }
                return result;
            }

            if (location == -1) {
                Random rnd = new Random ();
                location = rnd.Next(this.Orders.Count);
            }

            RouteStop next = this.Orders.ElementAt(location);

            int prevID;
            if (next.Node.Previous != null) {
                prevID = next.Node.Previous.Value.Order.MatrixID;
            } else {
                prevID = 287; // The garbage disposal location
            }
            int curID = destination.MatrixID;
            int nextID = next.Order.MatrixID;

            float EnRouteTime = this.EnRouteTime;
            EnRouteTime -= Program.afstandenMatrix [prevID, nextID].TravelTime;
            EnRouteTime += Program.afstandenMatrix [prevID, curID].TravelTime;
            EnRouteTime += Program.afstandenMatrix [curID, nextID].TravelTime;
            EnRouteTime += destination.LoadTime;

            var nextClearing = next.NextClearing;
            RouteStop stop2 = new RouteStop();
            stop2.Order = destination;
            stop2.Node = obj.Orders.AddBefore (next.Node, stop2);
            stop2.NextClearing = nextClearing;
            var fixSim = FixClearings (nextClearing, destination.CompressedVolume, false);
            obj.Orders.Remove (stop2.Node);
            EnRouteTime += fixSim.delta;

            result.getRoute = () => {
                //fixSim.getRoute();
                // Get the new time and distance required
                obj.EnRouteTime = EnRouteTime;

                stop2.Node = obj.Orders.AddBefore (next.Node, stop2);
                obj = fixSim.getRoute();
                return obj;
            };
            result.time = EnRouteTime;

            if (result.time > dayTimeSec) {
                throw new OverflowException ("Too much!");
            }
            return result;
        }
Exemplo n.º 2
0
        // Is not threadsafe
        // Changes order from: {0 -> .. -> i} -> {i+1 -> .. -> k} -> {k+1 -> .. -> j} -> {j+1 -> ..end}
        // To a random new combination of the sections, with {m -> .. -> n} being a section (m != 0, n != end)
        // Sections CAN be reversed, so there are 3 feasible options:
        // X) Reverse {i+1 -> k}, Keep {k+1 ->j} -> 2Opt
        // X) Keep {i+1 -> k}, Reverse {k+1 ->j} -> 2Opt
        // X) Reverse {i+1 -> k} and {k+1 ->j}	 -> 2*2Opt
        // 1) Swap them
        // 2) Swap them, but Reverse {k+1 ->j}
        // 3) Swap them, but Reverse {i+1 ->k}
        // X) Swap them, and Reverse {i+1 ->k} and {k+1 ->j} -> 2Opt
        // X) Do nothing                        -> Kinda pointless, eh?
        // The first and last sections are still in their original place
        public RouteSim Opt_3_Swap(int i, int k, int j, int variation)
        {
            Route newRoute = new Route (this.GarbageTruck, this.DayId);
            //LinkedList<RouteStop> newRoute = new LinkedList<RouteStop>();

            Order order;

            // Part 1 is normal (from begin to first node to swap)
            for (int pos = 0; pos < i; pos++) {
                order = new Order (this.Orders.ElementAt(pos).Order.OrderID,
                    this.Orders.ElementAt(pos).Order.LoadTime,
                    this.Orders.ElementAt(pos).Order.VolumePerContainer,
                    this.Orders.ElementAt(pos).Order.ContainerAmt,
                    this.Orders.ElementAt(pos).Order.Frequency,
                    this.Orders.ElementAt(pos).Order.X,
                    this.Orders.ElementAt(pos).Order.Y,
                    this.Orders.ElementAt(pos).Order.MatrixID);
                newRoute = newRoute.AddOrder (order).getRoute();
            }

            // Easy
            // Now part 2 and 3:
            switch (variation)
            {
            case 0:
                    // Swap the sections
                for (int pos = k; pos < j; pos++) {
                    order = new Order (this.Orders.ElementAt (pos).Order.OrderID,
                        this.Orders.ElementAt (pos).Order.LoadTime,
                        this.Orders.ElementAt (pos).Order.VolumePerContainer,
                        this.Orders.ElementAt (pos).Order.ContainerAmt,
                        this.Orders.ElementAt (pos).Order.Frequency,
                        this.Orders.ElementAt (pos).Order.X,
                        this.Orders.ElementAt (pos).Order.Y,
                        this.Orders.ElementAt (pos).Order.MatrixID);
                    newRoute = newRoute.AddOrder (order).getRoute ();
                }

                for (int pos = i; pos < k; pos++) {
                    order = new Order (this.Orders.ElementAt (pos).Order.OrderID,
                        this.Orders.ElementAt (pos).Order.LoadTime,
                        this.Orders.ElementAt (pos).Order.VolumePerContainer,
                        this.Orders.ElementAt (pos).Order.ContainerAmt,
                        this.Orders.ElementAt (pos).Order.Frequency,
                        this.Orders.ElementAt (pos).Order.X,
                        this.Orders.ElementAt (pos).Order.Y,
                        this.Orders.ElementAt (pos).Order.MatrixID);
                    newRoute = newRoute.AddOrder (order).getRoute ();
                }
                break;
            case 1:
                    // Swap the sections reverse latter (now the first one)
                for (int pos = j - 1; pos >= k; pos--){
                    order = new Order (this.Orders.ElementAt (pos).Order.OrderID,
                        this.Orders.ElementAt (pos).Order.LoadTime,
                        this.Orders.ElementAt (pos).Order.VolumePerContainer,
                        this.Orders.ElementAt (pos).Order.ContainerAmt,
                        this.Orders.ElementAt (pos).Order.Frequency,
                        this.Orders.ElementAt (pos).Order.X,
                        this.Orders.ElementAt (pos).Order.Y,
                        this.Orders.ElementAt (pos).Order.MatrixID);
                    newRoute = newRoute.AddOrder (order).getRoute ();
                }

                for (int pos = i; pos < k; pos++){
                    order = new Order (this.Orders.ElementAt (pos).Order.OrderID,
                        this.Orders.ElementAt (pos).Order.LoadTime,
                        this.Orders.ElementAt (pos).Order.VolumePerContainer,
                        this.Orders.ElementAt (pos).Order.ContainerAmt,
                        this.Orders.ElementAt (pos).Order.Frequency,
                        this.Orders.ElementAt (pos).Order.X,
                        this.Orders.ElementAt (pos).Order.Y,
                        this.Orders.ElementAt (pos).Order.MatrixID);
                    newRoute = newRoute.AddOrder (order).getRoute ();
                }
                    // What is the diff in travel time etc?
                    // time -= {i -> i+1} + {k -> k+1} + {k+1 -> .. -> j} + {j -> j+1}
                    // time += {i -> j} + {k+1-> i+1} + {j -> .. -> k+1} + {k+1 -> j+1}
                break;
            case 2:
                    // Swap the sections reverse former (now the second one)
                for (int pos = k; pos < j; pos++){
                    order = new Order (this.Orders.ElementAt (pos).Order.OrderID,
                        this.Orders.ElementAt (pos).Order.LoadTime,
                        this.Orders.ElementAt (pos).Order.VolumePerContainer,
                        this.Orders.ElementAt (pos).Order.ContainerAmt,
                        this.Orders.ElementAt (pos).Order.Frequency,
                        this.Orders.ElementAt (pos).Order.X,
                        this.Orders.ElementAt (pos).Order.Y,
                        this.Orders.ElementAt (pos).Order.MatrixID);
                    newRoute = newRoute.AddOrder (order).getRoute ();
                }

                for (int pos = k - 1; pos >= i; pos--){
                    order = new Order (this.Orders.ElementAt (pos).Order.OrderID,
                        this.Orders.ElementAt (pos).Order.LoadTime,
                        this.Orders.ElementAt (pos).Order.VolumePerContainer,
                        this.Orders.ElementAt (pos).Order.ContainerAmt,
                        this.Orders.ElementAt (pos).Order.Frequency,
                        this.Orders.ElementAt (pos).Order.X,
                        this.Orders.ElementAt (pos).Order.Y,
                        this.Orders.ElementAt (pos).Order.MatrixID);
                    newRoute = newRoute.AddOrder (order).getRoute ();
                }

                break;
            }

            // Lastly part 4:
            for (int pos = j; pos < this.Orders.Count; pos++){
                order = new Order (this.Orders.ElementAt (pos).Order.OrderID,
                    this.Orders.ElementAt (pos).Order.LoadTime,
                    this.Orders.ElementAt (pos).Order.VolumePerContainer,
                    this.Orders.ElementAt (pos).Order.ContainerAmt,
                    this.Orders.ElementAt (pos).Order.Frequency,
                    this.Orders.ElementAt (pos).Order.X,
                    this.Orders.ElementAt (pos).Order.Y,
                    this.Orders.ElementAt (pos).Order.MatrixID);
                newRoute = newRoute.AddOrder (order).getRoute ();
            }

            RouteSim result = new RouteSim ();
            result.getRoute = () => {
                return newRoute;
            };
            result.time = newRoute.EnRouteTime;
            return result;
        }
Exemplo n.º 3
0
        // O(n) time to remove a specified node
        public RouteSim RemoveOrder(RouteStop order)
        {
            RouteSim result = new RouteSim ();
            if (this.Orders.Count == 1 && this.Orders.First.Value == order) {
                result.time = 0;
                result.getRoute = () => { return new Route(this.GarbageTruck, this.DayId); };
                return result;
            }
            float EnRouteTime = this.EnRouteTime;
            EnRouteTime -= order.Order.LoadTime;
            int prevID = 287;
            int nextID = 287;
            int curID = order.Order.MatrixID;
            if (order.Node.Previous != null) {
                prevID = order.Node.Previous.Value.Order.MatrixID;
            }
            if (order.NextClearing.Value.Last.Value != order) {
                nextID = order.Node.Next.Value.Order.MatrixID;
            }

            EnRouteTime -= Program.afstandenMatrix [curID, nextID].TravelTime;
            EnRouteTime -= Program.afstandenMatrix [prevID, curID].TravelTime;
            EnRouteTime += Program.afstandenMatrix [prevID, nextID].TravelTime;
            var next = order.Node.Next;
            bool changedClearing = false;
            if (order.NextClearing.Value.Last.Value == order) {
                order.NextClearing.Value.Last = order.Node.Previous;
                changedClearing = true;
            }
            this.Orders.Remove (order.Node);
            var fixSim = FixClearings (order.NextClearing, order.Order.CompressedVolume, true);
            if (next != null) {
                this.Orders.AddBefore (next, order.Node);
            } else {
                this.Orders.AddLast (order.Node);
            }
            if (changedClearing) {
                order.NextClearing.Value.Last = order.Node;
            }
            EnRouteTime += fixSim.delta;

            result = new RouteSim ();
            Route obj = this;
            result.getRoute = () => {
                if (order.NextClearing.Value.Last == order.Node) {
                    order.NextClearing.Value.Last = order.Node.Previous;
                }

                obj.Orders.Remove(order.Node);
                obj.EnRouteTime = EnRouteTime;
                obj = fixSim.getRoute();
                return obj;
            };
            result.time = EnRouteTime;

            return result;
        }
Exemplo n.º 4
0
        // Is not threadsafe
        /// <summary>
        /// 
        /// </summary>
        /// <param name="i"></param>
        /// <param name="k"> should be between 0 and Orders.length - 2 (inclusive) </param>
        public RouteSim Opt_2_Swap(int i, int k)
        {
            Route newRoute = new Route (this.GarbageTruck, this.DayId);
            /*LinkedList<RouteStop> newRoute = new LinkedList<RouteStop>();

            int changeTime = 0;

            changeTime -= Program.afstandenMatrix[oldRoute[i].Order.MatrixID, oldRoute[i + 1].Order.MatrixID].TravelTime
                + Program.afstandenMatrix[oldRoute[k].Order.MatrixID, oldRoute[k + 1].Order.MatrixID].TravelTime;

            changeTime += Program.afstandenMatrix[oldRoute[i].Order.MatrixID, oldRoute[k + 1].Order.MatrixID].TravelTime
                + Program.afstandenMatrix[oldRoute[i + 1].Order.MatrixID, oldRoute[k + 1].Order.MatrixID].TravelTime;*/

            // Time -= {i -> i+1} + {k -> k+1} + {i+1 -> .. -> k}
            // Time += {i -> k+1} + {i+1 -> k+1} + { k -> .. -> i+1}

            Order order;

            // Part 1 is normal (from begin to first node to swap)
            for (int j = 0; j < i; j++) {
                order = new Order (this.Orders.ElementAt(j).Order.OrderID,
                    this.Orders.ElementAt(j).Order.LoadTime,
                    this.Orders.ElementAt(j).Order.VolumePerContainer,
                    this.Orders.ElementAt(j).Order.ContainerAmt,
                    this.Orders.ElementAt(j).Order.Frequency,
                    this.Orders.ElementAt(j).Order.X,
                    this.Orders.ElementAt(j).Order.Y,
                    this.Orders.ElementAt(j).Order.MatrixID);
                newRoute = newRoute.AddOrder (order).getRoute();
            }

            // Part 2, reverse {i+1 -> .. -> k}
            for (int j = k - 1; j >= i; j--)
            {
                order = new Order (this.Orders.ElementAt(j).Order.OrderID,
                    this.Orders.ElementAt(j).Order.LoadTime,
                    this.Orders.ElementAt(j).Order.VolumePerContainer,
                    this.Orders.ElementAt(j).Order.ContainerAmt,
                    this.Orders.ElementAt(j).Order.Frequency,
                    this.Orders.ElementAt(j).Order.X,
                    this.Orders.ElementAt(j).Order.Y,
                    this.Orders.ElementAt(j).Order.MatrixID);
                newRoute = newRoute.AddOrder (order).getRoute();
                /*
                // Verwijder de oude tijd
                changeTime -= Program.afstandenMatrix[oldRoute[j - 1].Order.MatrixID, oldRoute[j].Order.MatrixID].TravelTime;

                // Voeg de nieuwe tijd toe
                changeTime += Program.afstandenMatrix[oldRoute[j].Order.MatrixID, oldRoute[j - 1].Order.MatrixID].TravelTime;*/
            }

            // Part 3, the rest
            for (int j = k; j < this.Orders.Count; j++) {
                order = new Order (this.Orders.ElementAt(j).Order.OrderID,
                    this.Orders.ElementAt(j).Order.LoadTime,
                    this.Orders.ElementAt(j).Order.VolumePerContainer,
                    this.Orders.ElementAt(j).Order.ContainerAmt,
                    this.Orders.ElementAt(j).Order.Frequency,
                    this.Orders.ElementAt(j).Order.X,
                    this.Orders.ElementAt(j).Order.Y,
                    this.Orders.ElementAt(j).Order.MatrixID);
                newRoute = newRoute.AddOrder (order).getRoute();
            }

            //int EnRouteTime = this.EnRouteTime + changeTime;

            RouteSim result = new RouteSim ();
            //Route obj = this;
            result.getRoute = () => {
                return newRoute;
            };
            result.time = newRoute.EnRouteTime;
            return result;
        }