public string VesselToString(string id) { Vessel v = VesselList[id]; HullRace r = HullRaceList[v.side]; return("[" + v.uniqueID.ToString() + "] " + r.name + " " + v.classname); }
private void FromXml_Version_1_56(XmlDocument xDoc) { XmlNodeList xNodeList; HullRace race; Vessel vessel; BeamPort bp; DronePort dp; EnginePort ep; ImpulsePoint ip; ManeuverPoint mp; xNodeList = xDoc.GetElementsByTagName("hullRace"); foreach (XmlNode node in xNodeList) { race = new HullRace(); foreach (XmlAttribute att in node.Attributes) { switch (att.Name) { case "ID": race.ID = att.Value; break; case "name": race.name = att.Value; if (!RaceNames.Contains(race.name)) RaceNames.Add(race.name); break; case "keys": foreach (string s in att.Value.Split(' ')) { race.keys.Add(s); if (!RaceKeys.Contains(s)) RaceKeys.Add(s); } break; } } if (String.IsNullOrEmpty(race.ID)) continue; HullRaceList.Add(race.ID, race); } RaceNamesSortedByLength = RaceNames.ToList(); RaceNamesSortedByLength.Sort(new Comparison<string>((string a, string b) => { int diff = b.Split(' ').Length - a.Split(' ').Length; if (diff != 0) return diff; return String.Compare(a, b); } )); xNodeList = xDoc.GetElementsByTagName("vessel"); foreach (XmlNode node in xNodeList) { vessel = new Vessel(); foreach (XmlAttribute att in node.Attributes) { switch (att.Name) { case "uniqueID": vessel.uniqueID = att.Value; break; case "side": vessel.side = att.Value; break; case "classname": vessel.classname = att.Value; if (!VesselClassNames.Contains(vessel.classname)) VesselClassNames.Add(vessel.classname); break; case "broadType": vessel.broadType = att.Value; foreach(string broadType in vessel.broadType.Split(' ')) if (!VesselBroadTypes.Contains(broadType)) VesselBroadTypes.Add(broadType); break; } } if (String.IsNullOrEmpty(vessel.uniqueID)) continue; foreach (XmlNode subNode in node.ChildNodes) { switch (subNode.Name) { case "art": foreach (XmlAttribute att in node.Attributes) { switch (att.Name) { case "meshfile": vessel.meshfile = att.Value; break; case "diffuseFile": vessel.diffuseFile = att.Value; break; case "glowFile": vessel.glowFile = att.Value; break; case "specularFile": vessel.specularFile = att.Value; break; case "scale": vessel.scale = Helper.StringToDouble(att.Value); break; case "pushRadius": vessel.pushRadius = Helper.StringToDouble(att.Value); break; } } break; case "shields": foreach (XmlAttribute att in node.Attributes) { switch (att.Name) { case "front": vessel.shields_front = Helper.StringToDouble(att.Value); break; case "back": vessel.shields_back = Helper.StringToDouble(att.Value); break; } } break; case "carrier": foreach (XmlAttribute att in node.Attributes) { switch (att.Name) { case "compliment": vessel.carrier_compliment = Helper.StringToDouble(att.Value); break; } } break; case "performance": foreach (XmlAttribute att in node.Attributes) { switch (att.Name) { case "turnrate": vessel.preformance_turnrate = Helper.StringToDouble(att.Value); break; case "topspeed": vessel.preformance_topspeed = Helper.StringToDouble(att.Value); break; } } break; case "fleet_ai": foreach (XmlAttribute att in node.Attributes) { switch (att.Name) { case "commonality": vessel.fleet_ai_commonality = Helper.StringToDouble(att.Value); break; } } break; case "beam_port": bp = new BeamPort(); foreach (XmlAttribute att in subNode.Attributes) { switch (att.Name) { case "x": bp.x = Helper.StringToDouble(att.Value); break; case "y": bp.y = Helper.StringToDouble(att.Value); break; case "z": bp.z = Helper.StringToDouble(att.Value); break; case "range": bp.range = Helper.StringToDouble(att.Value); break; case "damage": bp.damage = Helper.StringToDouble(att.Value); break; case "cycletime": bp.cycletime = Helper.StringToDouble(att.Value); break; case "arcwidth": bp.arcwidth = Helper.StringToDouble(att.Value); break; } } vessel.beam_ports.Add(bp); break; case "drone_port": dp = new DronePort(); foreach (XmlAttribute att in subNode.Attributes) { switch (att.Name) { case "x": dp.x = Helper.StringToDouble(att.Value); break; case "y": dp.y = Helper.StringToDouble(att.Value); break; case "z": dp.z = Helper.StringToDouble(att.Value); break; case "range": dp.range = Helper.StringToDouble(att.Value); break; case "damage": dp.damage = Helper.StringToDouble(att.Value); break; case "cycletime": dp.cycletime = Helper.StringToDouble(att.Value); break; } } vessel.drone_ports.Add(dp); break; case "engine_port": ep = new EnginePort(); foreach (XmlAttribute att in subNode.Attributes) { switch (att.Name) { case "x": ep.x = Helper.StringToDouble(att.Value); break; case "y": ep.y = Helper.StringToDouble(att.Value); break; case "z": ep.z = Helper.StringToDouble(att.Value); break; } } vessel.engine_ports.Add(ep); break; case "impulse_point": ip = new ImpulsePoint(); foreach (XmlAttribute att in subNode.Attributes) { switch (att.Name) { case "x": ip.x = Helper.StringToDouble(att.Value); break; case "y": ip.y = Helper.StringToDouble(att.Value); break; case "z": ip.z = Helper.StringToDouble(att.Value); break; } } vessel.impulse_points.Add(ip); break; case "maneuver_point": mp = new ManeuverPoint(); foreach (XmlAttribute att in subNode.Attributes) { switch (att.Name) { case "x": mp.x = Helper.StringToDouble(att.Value); break; case "y": mp.y = Helper.StringToDouble(att.Value); break; case "z": mp.z = Helper.StringToDouble(att.Value); break; } } vessel.maneuver_points.Add(mp); break; } } VesselList.Add(vessel.uniqueID, vessel); } VesselClassNamesSortedByLength = VesselClassNames.ToList(); VesselClassNamesSortedByLength.Sort(new Comparison<string>((string a, string b) => { int diff = b.Split(' ').Length - a.Split(' ').Length; if (diff != 0) return diff; return String.Compare(a, b); } )); }
private void FromXml_Version_1_56(XmlDocument xDoc) { XmlNodeList xNodeList; HullRace race; Vessel vessel; BeamPort bp; DronePort dp; EnginePort ep; ImpulsePoint ip; ManeuverPoint mp; xNodeList = xDoc.GetElementsByTagName("hullRace"); foreach (XmlNode node in xNodeList) { race = new HullRace(); foreach (XmlAttribute att in node.Attributes) { switch (att.Name) { case "ID": race.ID = att.Value; break; case "name": race.name = att.Value; if (!RaceNames.Contains(race.name)) { RaceNames.Add(race.name); } break; case "keys": foreach (string s in att.Value.Split(' ')) { race.keys.Add(s); if (!RaceKeys.Contains(s)) { RaceKeys.Add(s); } } break; } } if (String.IsNullOrEmpty(race.ID)) { continue; } HullRaceList.Add(race.ID, race); } RaceNamesSortedByLength = RaceNames.ToList(); RaceNamesSortedByLength.Sort(new Comparison <string>((string a, string b) => { int diff = b.Split(' ').Length - a.Split(' ').Length; if (diff != 0) { return(diff); } return(String.Compare(a, b)); } )); xNodeList = xDoc.GetElementsByTagName("vessel"); foreach (XmlNode node in xNodeList) { vessel = new Vessel(); foreach (XmlAttribute att in node.Attributes) { switch (att.Name) { case "uniqueID": vessel.uniqueID = att.Value; break; case "side": vessel.side = att.Value; break; case "classname": vessel.classname = att.Value; if (!VesselClassNames.Contains(vessel.classname)) { VesselClassNames.Add(vessel.classname); } break; case "broadType": vessel.broadType = att.Value; foreach (string broadType in vessel.broadType.Split(' ')) { if (!VesselBroadTypes.Contains(broadType)) { VesselBroadTypes.Add(broadType); } } break; } } if (String.IsNullOrEmpty(vessel.uniqueID)) { continue; } foreach (XmlNode subNode in node.ChildNodes) { switch (subNode.Name) { case "art": foreach (XmlAttribute att in node.Attributes) { switch (att.Name) { case "meshfile": vessel.meshfile = att.Value; break; case "diffuseFile": vessel.diffuseFile = att.Value; break; case "glowFile": vessel.glowFile = att.Value; break; case "specularFile": vessel.specularFile = att.Value; break; case "scale": vessel.scale = Helper.StringToDouble(att.Value); break; case "pushRadius": vessel.pushRadius = Helper.StringToDouble(att.Value); break; } } break; case "shields": foreach (XmlAttribute att in node.Attributes) { switch (att.Name) { case "front": vessel.shields_front = Helper.StringToDouble(att.Value); break; case "back": vessel.shields_back = Helper.StringToDouble(att.Value); break; } } break; case "carrier": foreach (XmlAttribute att in node.Attributes) { switch (att.Name) { case "compliment": vessel.carrier_compliment = Helper.StringToDouble(att.Value); break; } } break; case "performance": foreach (XmlAttribute att in node.Attributes) { switch (att.Name) { case "turnrate": vessel.preformance_turnrate = Helper.StringToDouble(att.Value); break; case "topspeed": vessel.preformance_topspeed = Helper.StringToDouble(att.Value); break; } } break; case "fleet_ai": foreach (XmlAttribute att in node.Attributes) { switch (att.Name) { case "commonality": vessel.fleet_ai_commonality = Helper.StringToDouble(att.Value); break; } } break; case "beam_port": bp = new BeamPort(); foreach (XmlAttribute att in subNode.Attributes) { switch (att.Name) { case "x": bp.x = Helper.StringToDouble(att.Value); break; case "y": bp.y = Helper.StringToDouble(att.Value); break; case "z": bp.z = Helper.StringToDouble(att.Value); break; case "range": bp.range = Helper.StringToDouble(att.Value); break; case "damage": bp.damage = Helper.StringToDouble(att.Value); break; case "cycletime": bp.cycletime = Helper.StringToDouble(att.Value); break; case "arcwidth": bp.arcwidth = Helper.StringToDouble(att.Value); break; } } vessel.beam_ports.Add(bp); break; case "drone_port": dp = new DronePort(); foreach (XmlAttribute att in subNode.Attributes) { switch (att.Name) { case "x": dp.x = Helper.StringToDouble(att.Value); break; case "y": dp.y = Helper.StringToDouble(att.Value); break; case "z": dp.z = Helper.StringToDouble(att.Value); break; case "range": dp.range = Helper.StringToDouble(att.Value); break; case "damage": dp.damage = Helper.StringToDouble(att.Value); break; case "cycletime": dp.cycletime = Helper.StringToDouble(att.Value); break; } } vessel.drone_ports.Add(dp); break; case "engine_port": ep = new EnginePort(); foreach (XmlAttribute att in subNode.Attributes) { switch (att.Name) { case "x": ep.x = Helper.StringToDouble(att.Value); break; case "y": ep.y = Helper.StringToDouble(att.Value); break; case "z": ep.z = Helper.StringToDouble(att.Value); break; } } vessel.engine_ports.Add(ep); break; case "impulse_point": ip = new ImpulsePoint(); foreach (XmlAttribute att in subNode.Attributes) { switch (att.Name) { case "x": ip.x = Helper.StringToDouble(att.Value); break; case "y": ip.y = Helper.StringToDouble(att.Value); break; case "z": ip.z = Helper.StringToDouble(att.Value); break; } } vessel.impulse_points.Add(ip); break; case "maneuver_point": mp = new ManeuverPoint(); foreach (XmlAttribute att in subNode.Attributes) { switch (att.Name) { case "x": mp.x = Helper.StringToDouble(att.Value); break; case "y": mp.y = Helper.StringToDouble(att.Value); break; case "z": mp.z = Helper.StringToDouble(att.Value); break; } } vessel.maneuver_points.Add(mp); break; } } VesselList.Add(vessel.uniqueID, vessel); } VesselClassNamesSortedByLength = VesselClassNames.ToList(); VesselClassNamesSortedByLength.Sort(new Comparison <string>((string a, string b) => { int diff = b.Split(' ').Length - a.Split(' ').Length; if (diff != 0) { return(diff); } return(String.Compare(a, b)); } )); }
public string RaceToString(string id) { HullRace r = HullRaceList[id]; return("[" + r.ID.ToString() + "] " + r.name); }