// GetTravelData METHOD HEADER COMMENT ------------------------------------------------------------------------------- /** * \fn List<RouteData> GetTravelData(int OriginID, int DestinationID, bool FLTorLTL) * \brief This method will determine the info for a trip the between to cities. * \details A list of RouteData structs, each struct will hold all timing and KM data. * The timing for each element will keep track of the pick up time at the origin city, the drop off time at the destination, and the LTL time at intermediate cities. * \param[in] int OriginID, int DestinationID, bool FLTorLTL The origin and destination cities, and if the trip is Flt or Ltl. * \param[out] null * \exception null * \see Struct: RouteData * \return List<RouteData> A list of the RouteData structs. The list all together will hold all the data for a trip. * * ---------------------------------------------------------------------------------------------------- */ public List <FC_RouteSeg> GetTravelData(string Origin, string Destination, int inFTL, int InTicketID) //one is ltl { int OriginID = LoadCSV.ToCityID(Origin); int DestinationID = LoadCSV.ToCityID(Destination); bool FTL = true; if (inFTL == 1) { FTL = false; } try { //figure out if we need to travel east or west CityNode current = nodes.Find(x => x.CityID == OriginID); CityNode nextCity; List <FC_RouteSeg> returnList = new List <FC_RouteSeg>(); if (OriginID >= 0 && OriginID < Number_of_Cities && DestinationID >= 0 && DestinationID < Number_of_Cities && OriginID != DestinationID) { do { FC_RouteSeg tripDataPassBack = new FC_RouteSeg(InTicketID, 0, 0, 0, 0, 0, 0, 0); if (OriginID > DestinationID) { //going west nextCity = current.West; tripDataPassBack.KM = current.WestKM; tripDataPassBack.DrivenTime = current.WestHour; } else { //going east nextCity = current.East; tripDataPassBack.KM = current.EastKM; tripDataPassBack.DrivenTime = current.EastHour; } tripDataPassBack.CityA = current.CityID; tripDataPassBack.CityB = nextCity.CityID; if (current.CityID == OriginID) { tripDataPassBack.PickUpTime += 2; } if (nextCity.CityID == DestinationID) { tripDataPassBack.DropOffTime += 2; } if (!FTL && (nextCity.CityID != DestinationID)) { tripDataPassBack.LtlTime += 2; } returnList.Add(tripDataPassBack); current = nextCity; } while (nextCity.CityID != DestinationID); TMSLogger.LogIt(" | " + "MappingClass.cs" + " | " + "MappingClass" + " | " + "GetTravelData" + " | " + "Confirmation" + " | " + "Route List calculated" + " | "); return(returnList); } } catch (Exception e) { TMSLogger.LogIt(" | " + "MappingClass.cs" + " | " + "MappingClass" + " | " + "GetTravelData" + " | " + e.GetType().ToString() + " | " + e.Message + " | "); } return(null); }
// MappingClass Constructor HEADER COMMENT ------------------------------------------------------------------------------- /** * \fn MappingClass() Constructor * \brief The constructor for the Mapping Class * \details The data for each city will be read out of the database. It will then converted into a List datastructure so that it can be steped though easily. * \param[in] null * \param[out] null * \exception null * \see na * \return null * ---------------------------------------------------------------------------------------------------- */ public MappingClass() { CityNode Windsor = new CityNode("Windsor", 0); CityNode London = new CityNode("London", 1); CityNode Hamilton = new CityNode("Hamilton", 2); CityNode Toronto = new CityNode("Toronto", 3); CityNode Oshawa = new CityNode("Oshawa", 4); CityNode Belleville = new CityNode("Belleville", 5); CityNode Kingston = new CityNode("Kingston", 6); CityNode Ottawa = new CityNode("Ottawa", 7); Windsor.West = null; London.West = Windsor; Hamilton.West = London; Toronto.West = Hamilton; Oshawa.West = Toronto; Belleville.West = Oshawa; Kingston.West = Belleville; Ottawa.West = Kingston; Windsor.East = London; London.East = Hamilton; Hamilton.East = Toronto; Toronto.East = Oshawa; Oshawa.East = Belleville; Belleville.East = Kingston; Kingston.East = Ottawa; Ottawa.East = null; nodes.Add(Windsor); nodes.Add(London); nodes.Add(Hamilton); nodes.Add(Toronto); nodes.Add(Oshawa); nodes.Add(Belleville); nodes.Add(Kingston); nodes.Add(Ottawa); int[] eastKMArray = new int[Number_of_Cities] { 191, 128, 68, 60, 134, 82, 196, -1 }; for (int i = 0; i < Number_of_Cities; i++) { nodes[i].EastKM = eastKMArray[i]; } int[] westKMArray = new int[Number_of_Cities] { -1, 191, 128, 68, 60, 134, 82, 196 }; for (int i = 0; i < Number_of_Cities; i++) { nodes[i].WestKM = westKMArray[i]; } double[] eastHourArray = new double[Number_of_Cities] { 2.5, 1.75, 1.25, 1.3, 1.65, 1.2, 2.5, -1 }; for (int i = 0; i < Number_of_Cities; i++) { nodes[i].EastHour = eastHourArray[i]; } double[] WestHourArray = new double[Number_of_Cities] { -1, 2.5, 1.75, 1.25, 1.3, 1.65, 1.2, 2.5 }; for (int i = 0; i < Number_of_Cities; i++) { nodes[i].WestHour = WestHourArray[i]; } TMSLogger.LogIt(" | " + "MappingClass.cs" + " | " + "MappingClass" + " | " + "Constructor" + " | " + "Confirmation" + " | " + "Mapping Class created" + " | "); int k = 0; }