| public static setLaneAllowedVehicleTypes ( uint laneId, ExtVehicleType vehicleTypes ) : void | ||
| laneId | uint | |
| vehicleTypes | ExtVehicleType | |
| return | void | |
private static void LoadDataState()
{
Log.Info("Loading State from Config");
if (_configuration == null)
{
Log.Warning("Configuration NULL, Couldn't load save data. Possibly a new game?");
return;
}
// load priority segments
if (_configuration.PrioritySegments != null)
{
Log.Info($"Loading {_configuration.PrioritySegments.Count()} priority segments");
foreach (var segment in _configuration.PrioritySegments)
{
try {
if (segment.Length < 3)
{
continue;
}
#if DEBUG
bool debug = segment[0] == 13630;
#endif
if ((SegmentEnd.PriorityType)segment[2] == SegmentEnd.PriorityType.None)
{
#if DEBUG
if (debug)
{
Log._Debug($"Loading priority segment: Not adding 'None' priority segment: {segment[1]} @ node {segment[0]}");
}
#endif
continue;
}
if ((Singleton <NetManager> .instance.m_nodes.m_buffer[segment[0]].m_flags & NetNode.Flags.Created) == NetNode.Flags.None)
{
#if DEBUG
if (debug)
{
Log._Debug($"Loading priority segment: node {segment[0]} is invalid");
}
#endif
continue;
}
if ((Singleton <NetManager> .instance.m_segments.m_buffer[segment[1]].m_flags & NetSegment.Flags.Created) == NetSegment.Flags.None)
{
#if DEBUG
if (debug)
{
Log._Debug($"Loading priority segment: segment {segment[1]} @ node {segment[0]} is invalid");
}
#endif
continue;
}
if (TrafficPriority.IsPrioritySegment((ushort)segment[0], (ushort)segment[1]))
{
#if DEBUG
if (debug)
{
Log._Debug($"Loading priority segment: segment {segment[1]} @ node {segment[0]} is already a priority segment");
}
#endif
TrafficPriority.GetPrioritySegment((ushort)segment[0], (ushort)segment[1]).Type = (SegmentEnd.PriorityType)segment[2];
continue;
}
#if DEBUG
Log._Debug($"Adding Priority Segment of type: {segment[2].ToString()} to segment {segment[1]} @ node {segment[0]}");
#endif
TrafficPriority.AddPrioritySegment((ushort)segment[0], (ushort)segment[1], (SegmentEnd.PriorityType)segment[2]);
} catch (Exception e) {
// ignore, as it's probably corrupt save data. it'll be culled on next save
Log.Warning("Error loading data from Priority segments: " + e.ToString());
}
}
}
else
{
Log.Warning("Priority segments data structure undefined!");
}
// load vehicle restrictions (warning: has to be done before loading timed lights!)
if (_configuration.LaneAllowedVehicleTypes != null)
{
Log.Info($"Loading lane vehicle restriction data. {_configuration.LaneAllowedVehicleTypes.Count} elements");
foreach (Configuration.LaneVehicleTypes laneVehicleTypes in _configuration.LaneAllowedVehicleTypes)
{
try {
ExtVehicleType baseMask = VehicleRestrictionsManager.GetBaseMask(laneVehicleTypes.laneId);
ExtVehicleType maskedType = laneVehicleTypes.vehicleTypes & baseMask;
Log._Debug($"Loading lane vehicle restriction: lane {laneVehicleTypes.laneId} = {laneVehicleTypes.vehicleTypes}, masked = {maskedType}");
if (maskedType != baseMask)
{
Flags.setLaneAllowedVehicleTypes(laneVehicleTypes.laneId, maskedType);
}
else
{
Log._Debug($"Masked type does not differ from base type. Ignoring.");
}
} catch (Exception e) {
// ignore, as it's probably corrupt save data. it'll be culled on next save
Log.Warning("Error loading data from vehicle restrictions: " + e.ToString());
}
}
}
else
{
Log.Warning("Vehicle restrctions structure undefined!");
}
var timedStepCount = 0;
var timedStepSegmentCount = 0;
NetManager netManager = Singleton <NetManager> .instance;
if (_configuration.TimedLights != null)
{
Log.Info($"Loading {_configuration.TimedLights.Count()} timed traffic lights (new method)");
foreach (Configuration.TimedTrafficLights cnfTimedLights in _configuration.TimedLights)
{
try {
if ((Singleton <NetManager> .instance.m_nodes.m_buffer[cnfTimedLights.nodeId].m_flags & NetNode.Flags.Created) == NetNode.Flags.None)
{
continue;
}
Flags.setNodeTrafficLight(cnfTimedLights.nodeId, true);
Log._Debug($"Adding Timed Node at node {cnfTimedLights.nodeId}");
TrafficLightSimulation sim = TrafficLightSimulation.AddNodeToSimulation(cnfTimedLights.nodeId);
sim.SetupTimedTrafficLight(cnfTimedLights.nodeGroup);
var timedNode = sim.TimedLight;
int j = 0;
foreach (Configuration.TimedTrafficLightsStep cnfTimedStep in cnfTimedLights.timedSteps)
{
Log._Debug($"Loading timed step {j} at node {cnfTimedLights.nodeId}");
TimedTrafficLightsStep step = timedNode.AddStep(cnfTimedStep.minTime, cnfTimedStep.maxTime, cnfTimedStep.waitFlowBalance);
foreach (KeyValuePair <ushort, Configuration.CustomSegmentLights> e in cnfTimedStep.segmentLights)
{
Log._Debug($"Loading timed step {j}, segment {e.Key} at node {cnfTimedLights.nodeId}");
CustomSegmentLights lights = null;
if (!step.segmentLights.TryGetValue(e.Key, out lights))
{
Log._Debug($"No segment lights found at timed step {j} for segment {e.Key}, node {cnfTimedLights.nodeId}");
continue;
}
Configuration.CustomSegmentLights cnfLights = e.Value;
Log._Debug($"Loading pedestrian light @ seg. {e.Key}, step {j}: {cnfLights.pedestrianLightState} {cnfLights.manualPedestrianMode}");
lights.ManualPedestrianMode = cnfLights.manualPedestrianMode;
lights.PedestrianLightState = cnfLights.pedestrianLightState;
foreach (KeyValuePair <ExtVehicleType, Configuration.CustomSegmentLight> e2 in cnfLights.customLights)
{
Log._Debug($"Loading timed step {j}, segment {e.Key}, vehicleType {e2.Key} at node {cnfTimedLights.nodeId}");
CustomSegmentLight light = null;
if (!lights.CustomLights.TryGetValue(e2.Key, out light))
{
Log._Debug($"No segment light found for timed step {j}, segment {e.Key}, vehicleType {e2.Key} at node {cnfTimedLights.nodeId}");
continue;
}
Configuration.CustomSegmentLight cnfLight = e2.Value;
light.CurrentMode = (CustomSegmentLight.Mode)cnfLight.currentMode;
light.LightLeft = cnfLight.leftLight;
light.LightMain = cnfLight.mainLight;
light.LightRight = cnfLight.rightLight;
}
}
++j;
}
if (cnfTimedLights.started)
{
timedNode.Start();
}
} catch (Exception e) {
// ignore, as it's probably corrupt save data. it'll be culled on next save
Log.Warning("Error loading data from TimedNode (new method): " + e.ToString());
}
}
}
else if (_configuration.TimedNodes != null && _configuration.TimedNodeGroups != null)
{
Log.Info($"Loading {_configuration.TimedNodes.Count()} timed traffic lights (old method)");
for (var i = 0; i < _configuration.TimedNodes.Count; i++)
{
try {
var nodeid = (ushort)_configuration.TimedNodes[i][0];
if ((Singleton <NetManager> .instance.m_nodes.m_buffer[nodeid].m_flags & NetNode.Flags.Created) == NetNode.Flags.None)
{
continue;
}
Flags.setNodeTrafficLight(nodeid, true);
Log._Debug($"Adding Timed Node {i} at node {nodeid}");
var nodeGroup = new List <ushort>();
for (var j = 0; j < _configuration.TimedNodeGroups[i].Length; j++)
{
nodeGroup.Add(_configuration.TimedNodeGroups[i][j]);
}
TrafficLightSimulation sim = TrafficLightSimulation.AddNodeToSimulation(nodeid);
sim.SetupTimedTrafficLight(nodeGroup);
var timedNode = sim.TimedLight;
timedNode.CurrentStep = _configuration.TimedNodes[i][1];
for (var j = 0; j < _configuration.TimedNodes[i][2]; j++)
{
var cfgstep = _configuration.TimedNodeSteps[timedStepCount];
// old (pre 1.3.0):
// cfgstep[0]: time of step
// cfgstep[1]: number of segments
// new (post 1.3.0):
// cfgstep[0]: min. time of step
// cfgstep[1]: max. time of step
// cfgstep[2]: number of segments
int minTime = 1;
int maxTime = 1;
//int numSegments = 0;
float waitFlowBalance = 1f;
if (cfgstep.Length == 2)
{
minTime = cfgstep[0];
maxTime = cfgstep[0];
//numSegments = cfgstep[1];
}
else if (cfgstep.Length >= 3)
{
minTime = cfgstep[0];
maxTime = cfgstep[1];
//numSegments = cfgstep[2];
if (cfgstep.Length == 4)
{
waitFlowBalance = Convert.ToSingle(cfgstep[3]) / 10f;
}
if (cfgstep.Length == 5)
{
waitFlowBalance = Convert.ToSingle(cfgstep[4]) / 1000f;
}
}
Log._Debug($"Adding timed step to node {nodeid}: min/max: {minTime}/{maxTime}, waitFlowBalance: {waitFlowBalance}");
timedNode.AddStep(minTime, maxTime, waitFlowBalance);
var step = timedNode.Steps[j];
for (var s = 0; s < 8; s++)
{
var segmentId = netManager.m_nodes.m_buffer[nodeid].GetSegment(s);
if (segmentId <= 0)
{
continue;
}
bool tooFewSegments = (timedStepSegmentCount >= _configuration.TimedNodeStepSegments.Count);
var leftLightState = tooFewSegments ? RoadBaseAI.TrafficLightState.Red : (RoadBaseAI.TrafficLightState)_configuration.TimedNodeStepSegments[timedStepSegmentCount][0];
var mainLightState = tooFewSegments ? RoadBaseAI.TrafficLightState.Red : (RoadBaseAI.TrafficLightState)_configuration.TimedNodeStepSegments[timedStepSegmentCount][1];
var rightLightState = tooFewSegments ? RoadBaseAI.TrafficLightState.Red : (RoadBaseAI.TrafficLightState)_configuration.TimedNodeStepSegments[timedStepSegmentCount][2];
var pedLightState = tooFewSegments ? RoadBaseAI.TrafficLightState.Red : (RoadBaseAI.TrafficLightState)_configuration.TimedNodeStepSegments[timedStepSegmentCount][3];
CustomSegmentLight.Mode?mode = null;
if (_configuration.TimedNodeStepSegments[timedStepSegmentCount].Length >= 5)
{
mode = (CustomSegmentLight.Mode)_configuration.TimedNodeStepSegments[timedStepSegmentCount][4];
}
foreach (KeyValuePair <ExtVehicleType, CustomSegmentLight> e in step.segmentLights[segmentId].CustomLights)
{
//ManualSegmentLight segmentLight = new ManualSegmentLight(step.NodeId, step.segmentIds[k], mainLightState, leftLightState, rightLightState, pedLightState);
e.Value.LightLeft = leftLightState;
e.Value.LightMain = mainLightState;
e.Value.LightRight = rightLightState;
if (mode != null)
{
e.Value.CurrentMode = (CustomSegmentLight.Mode)mode;
}
}
if (step.segmentLights[segmentId].PedestrianLightState != null)
{
step.segmentLights[segmentId].PedestrianLightState = pedLightState;
}
timedStepSegmentCount++;
}
timedStepCount++;
}
if (Convert.ToBoolean(_configuration.TimedNodes[i][3]))
{
timedNode.Start();
}
} catch (Exception e) {
// ignore, as it's probably corrupt save data. it'll be culled on next save
Log.Warning("Error loading data from the TimedNodes: " + e.ToString());
}
}
}
else
{
Log.Warning("Timed traffic lights data structure undefined!");
}
var trafficLightDefs = _configuration.NodeTrafficLights.Split(',');
Log.Info($"Loading junction traffic light data");
if (trafficLightDefs.Length <= 1)
{
// old method
Log.Info($"Using old method to load traffic light data");
var saveDataIndex = 0;
for (var i = 0; i < Singleton <NetManager> .instance.m_nodes.m_buffer.Length; i++)
{
//Log.Message($"Adding NodeTrafficLights iteration: {i1}");
try {
if ((Singleton <NetManager> .instance.m_nodes.m_buffer[i].Info.m_class.m_service != ItemClass.Service.Road &&
Singleton <NetManager> .instance.m_nodes.m_buffer[i].Info.m_class.m_service != ItemClass.Service.PublicTransport) ||
(Singleton <NetManager> .instance.m_nodes.m_buffer[i].m_flags & NetNode.Flags.Created) == NetNode.Flags.None)
{
continue;
}
// prevent overflow
if (_configuration.NodeTrafficLights.Length > saveDataIndex)
{
var trafficLight = _configuration.NodeTrafficLights[saveDataIndex];
#if DEBUG
Log._Debug("Setting traffic light flag for node " + i + ": " + (trafficLight == '1'));
#endif
Flags.setNodeTrafficLight((ushort)i, trafficLight == '1');
}
++saveDataIndex;
} catch (Exception e) {
// ignore as it's probably bad save data.
Log.Warning("Error setting the NodeTrafficLights (old): " + e.Message);
}
}
}
else
{
// new method
foreach (var split in trafficLightDefs.Select(def => def.Split(':')).Where(split => split.Length > 1))
{
try {
Log.Info($"Traffic light split data: {split[0]} , {split[1]}");
var nodeId = Convert.ToUInt16(split[0]);
uint flag = Convert.ToUInt16(split[1]);
Flags.setNodeTrafficLight(nodeId, flag > 0);
} catch (Exception e) {
// ignore as it's probably bad save data.
Log.Warning("Error setting the NodeTrafficLights (new): " + e.Message);
}
}
}
if (_configuration.LaneFlags != null)
{
Log.Info($"Loading lane arrow data");
#if DEBUG
Log._Debug($"LaneFlags: {_configuration.LaneFlags}");
#endif
var lanes = _configuration.LaneFlags.Split(',');
if (lanes.Length > 1)
{
foreach (var split in lanes.Select(lane => lane.Split(':')).Where(split => split.Length > 1))
{
try {
Log.Info($"Split Data: {split[0]} , {split[1]}");
var laneId = Convert.ToUInt32(split[0]);
uint flags = Convert.ToUInt32(split[1]);
//make sure we don't cause any overflows because of bad save data.
if (Singleton <NetManager> .instance.m_lanes.m_buffer.Length <= laneId)
{
continue;
}
if (flags > ushort.MaxValue)
{
continue;
}
if ((Singleton <NetManager> .instance.m_lanes.m_buffer[laneId].m_flags & (ushort)NetLane.Flags.Created) == 0 || Singleton <NetManager> .instance.m_lanes.m_buffer[laneId].m_segment == 0)
{
continue;
}
//Singleton<NetManager>.instance.m_lanes.m_buffer[laneId].m_flags = fixLaneFlags(Singleton<NetManager>.instance.m_lanes.m_buffer[laneId].m_flags);
uint laneArrowFlags = flags & Flags.lfr;
uint origFlags = (Singleton <NetManager> .instance.m_lanes.m_buffer[laneId].m_flags & Flags.lfr);
#if DEBUG
Log._Debug("Setting flags for lane " + laneId + " to " + flags + " (" + ((Flags.LaneArrows)(laneArrowFlags)).ToString() + ")");
if ((origFlags | laneArrowFlags) == origFlags) // only load if setting differs from default
{
Log._Debug("Flags for lane " + laneId + " are original (" + ((NetLane.Flags)(origFlags)).ToString() + ")");
}
#endif
Flags.setLaneArrowFlags(laneId, (Flags.LaneArrows)(laneArrowFlags));
} catch (Exception e) {
Log.Error($"Error loading Lane Split data. Length: {split.Length} value: {split}\nError: {e.Message}");
}
}
}
}
else
{
Log.Warning("Lane arrow data structure undefined!");
}
// load lane connections
if (_configuration.LaneConnections != null)
{
Log.Info($"Loading {_configuration.LaneConnections.Count()} lane connections");
foreach (Configuration.LaneConnection conn in _configuration.LaneConnections)
{
try {
Log._Debug($"Loading lane connection: lane {conn.lowerLaneId} -> {conn.higherLaneId}");
Singleton <LaneConnectionManager> .instance.AddLaneConnection(conn.lowerLaneId, conn.higherLaneId, conn.lowerStartNode);
} catch (Exception e) {
// ignore, as it's probably corrupt save data. it'll be culled on next save
Log.Warning("Error loading data from lane connection: " + e.ToString());
}
}
}
else
{
Log.Warning("Lane connection data structure undefined!");
}
// load speed limits
if (_configuration.LaneSpeedLimits != null)
{
Log.Info($"Loading lane speed limit data. {_configuration.LaneSpeedLimits.Count} elements");
foreach (Configuration.LaneSpeedLimit laneSpeedLimit in _configuration.LaneSpeedLimits)
{
try {
Log._Debug($"Loading lane speed limit: lane {laneSpeedLimit.laneId} = {laneSpeedLimit.speedLimit}");
Flags.setLaneSpeedLimit(laneSpeedLimit.laneId, laneSpeedLimit.speedLimit);
} catch (Exception e) {
// ignore, as it's probably corrupt save data. it'll be culled on next save
Log.Warning("Error loading speed limits: " + e.ToString());
}
}
}
else
{
Log.Warning("Lane speed limit structure undefined!");
}
// Load segment-at-node flags
if (_configuration.SegmentNodeConfs != null)
{
Log.Info($"Loading segment-at-node data. {_configuration.SegmentNodeConfs.Count} elements");
foreach (Configuration.SegmentNodeConf segNodeConf in _configuration.SegmentNodeConfs)
{
try {
if ((Singleton <NetManager> .instance.m_segments.m_buffer[segNodeConf.segmentId].m_flags & NetSegment.Flags.Created) == NetSegment.Flags.None)
{
continue;
}
Flags.setSegmentNodeFlags(segNodeConf.segmentId, true, segNodeConf.startNodeFlags);
Flags.setSegmentNodeFlags(segNodeConf.segmentId, false, segNodeConf.endNodeFlags);
} catch (Exception e) {
// ignore, as it's probably corrupt save data. it'll be culled on next save
Log.Warning("Error loading segment-at-node config: " + e.ToString());
}
}
}
else
{
Log.Warning("Segment-at-node structure undefined!");
}
}
private static void LoadDataState(out bool error)
{
error = false;
Log.Info("Loading State from Config");
if (_configuration == null)
{
Log.Warning("Configuration NULL, Couldn't load save data. Possibly a new game?");
return;
}
TrafficPriorityManager prioMan = TrafficPriorityManager.Instance();
// load priority segments
if (_configuration.PrioritySegments != null)
{
Log.Info($"Loading {_configuration.PrioritySegments.Count()} priority segments");
foreach (var segment in _configuration.PrioritySegments)
{
try {
if (segment.Length < 3)
{
continue;
}
#if DEBUG
bool debug = segment[0] == 13630;
#endif
if ((SegmentEnd.PriorityType)segment[2] == SegmentEnd.PriorityType.None)
{
#if DEBUG
if (debug)
{
Log._Debug($"Loading priority segment: Not adding 'None' priority segment: {segment[1]} @ node {segment[0]}");
}
#endif
continue;
}
if (!NetUtil.IsNodeValid((ushort)segment[0]))
{
#if DEBUG
if (debug)
{
Log._Debug($"Loading priority segment: node {segment[0]} is invalid");
}
#endif
continue;
}
if (!NetUtil.IsSegmentValid((ushort)segment[1]))
{
#if DEBUG
if (debug)
{
Log._Debug($"Loading priority segment: segment {segment[1]} @ node {segment[0]} is invalid");
}
#endif
continue;
}
if (prioMan.IsPrioritySegment((ushort)segment[0], (ushort)segment[1]))
{
#if DEBUG
if (debug)
{
Log._Debug($"Loading priority segment: segment {segment[1]} @ node {segment[0]} is already a priority segment");
}
#endif
prioMan.GetPrioritySegment((ushort)segment[0], (ushort)segment[1]).Type = (SegmentEnd.PriorityType)segment[2];
continue;
}
#if DEBUG
Log._Debug($"Adding Priority Segment of type: {segment[2].ToString()} to segment {segment[1]} @ node {segment[0]}");
#endif
prioMan.AddPrioritySegment((ushort)segment[0], (ushort)segment[1], (SegmentEnd.PriorityType)segment[2]);
} catch (Exception e) {
// ignore, as it's probably corrupt save data. it'll be culled on next save
Log.Warning("Error loading data from Priority segments: " + e.ToString());
error = true;
}
}
}
else
{
Log.Warning("Priority segments data structure undefined!");
}
// load vehicle restrictions (warning: has to be done before loading timed lights!)
if (_configuration.LaneAllowedVehicleTypes != null)
{
Log.Info($"Loading lane vehicle restriction data. {_configuration.LaneAllowedVehicleTypes.Count} elements");
foreach (Configuration.LaneVehicleTypes laneVehicleTypes in _configuration.LaneAllowedVehicleTypes)
{
try {
ExtVehicleType baseMask = VehicleRestrictionsManager.Instance().GetBaseMask(laneVehicleTypes.laneId);
ExtVehicleType maskedType = laneVehicleTypes.vehicleTypes & baseMask;
Log._Debug($"Loading lane vehicle restriction: lane {laneVehicleTypes.laneId} = {laneVehicleTypes.vehicleTypes}, masked = {maskedType}");
if (maskedType != baseMask)
{
Flags.setLaneAllowedVehicleTypes(laneVehicleTypes.laneId, maskedType);
}
else
{
Log._Debug($"Masked type does not differ from base type. Ignoring.");
}
} catch (Exception e) {
// ignore, as it's probably corrupt save data. it'll be culled on next save
Log.Warning("Error loading data from vehicle restrictions: " + e.ToString());
error = true;
}
}
}
else
{
Log.Warning("Vehicle restrctions structure undefined!");
}
NetManager netManager = Singleton <NetManager> .instance;
TrafficLightSimulationManager tlsMan = TrafficLightSimulationManager.Instance();
if (_configuration.TimedLights != null)
{
Log.Info($"Loading {_configuration.TimedLights.Count()} timed traffic lights (new method)");
foreach (Configuration.TimedTrafficLights cnfTimedLights in _configuration.TimedLights)
{
try {
if (!NetUtil.IsNodeValid(cnfTimedLights.nodeId))
{
continue;
}
Flags.setNodeTrafficLight(cnfTimedLights.nodeId, true);
Log._Debug($"Adding Timed Node at node {cnfTimedLights.nodeId}");
TrafficLightSimulation sim = tlsMan.AddNodeToSimulation(cnfTimedLights.nodeId);
sim.SetupTimedTrafficLight(cnfTimedLights.nodeGroup);
var timedNode = sim.TimedLight;
int j = 0;
foreach (Configuration.TimedTrafficLightsStep cnfTimedStep in cnfTimedLights.timedSteps)
{
Log._Debug($"Loading timed step {j} at node {cnfTimedLights.nodeId}");
TimedTrafficLightsStep step = timedNode.AddStep(cnfTimedStep.minTime, cnfTimedStep.maxTime, cnfTimedStep.waitFlowBalance);
foreach (KeyValuePair <ushort, Configuration.CustomSegmentLights> e in cnfTimedStep.segmentLights)
{
Log._Debug($"Loading timed step {j}, segment {e.Key} at node {cnfTimedLights.nodeId}");
CustomSegmentLights lights = null;
if (!step.segmentLights.TryGetValue(e.Key, out lights))
{
Log._Debug($"No segment lights found at timed step {j} for segment {e.Key}, node {cnfTimedLights.nodeId}");
continue;
}
Configuration.CustomSegmentLights cnfLights = e.Value;
Log._Debug($"Loading pedestrian light @ seg. {e.Key}, step {j}: {cnfLights.pedestrianLightState} {cnfLights.manualPedestrianMode}");
lights.ManualPedestrianMode = cnfLights.manualPedestrianMode;
lights.PedestrianLightState = cnfLights.pedestrianLightState;
foreach (KeyValuePair <ExtVehicleType, Configuration.CustomSegmentLight> e2 in cnfLights.customLights)
{
Log._Debug($"Loading timed step {j}, segment {e.Key}, vehicleType {e2.Key} at node {cnfTimedLights.nodeId}");
CustomSegmentLight light = null;
if (!lights.CustomLights.TryGetValue(e2.Key, out light))
{
Log._Debug($"No segment light found for timed step {j}, segment {e.Key}, vehicleType {e2.Key} at node {cnfTimedLights.nodeId}");
continue;
}
Configuration.CustomSegmentLight cnfLight = e2.Value;
light.CurrentMode = (CustomSegmentLight.Mode)cnfLight.currentMode;
light.LightLeft = cnfLight.leftLight;
light.LightMain = cnfLight.mainLight;
light.LightRight = cnfLight.rightLight;
}
}
++j;
}
if (cnfTimedLights.started)
{
timedNode.Start();
}
} catch (Exception e) {
// ignore, as it's probably corrupt save data. it'll be culled on next save
Log.Warning("Error loading data from TimedNode (new method): " + e.ToString());
error = true;
}
}
}
else
{
Log.Warning("Timed traffic lights data structure undefined!");
}
if (_configuration.NodeTrafficLights != null)
{
var trafficLightDefs = _configuration.NodeTrafficLights.Split(',');
Log.Info($"Loading junction traffic light data");
// new method
foreach (var split in trafficLightDefs.Select(def => def.Split(':')).Where(split => split.Length > 1))
{
try {
Log._Debug($"Traffic light split data: {split[0]} , {split[1]}");
var nodeId = Convert.ToUInt16(split[0]);
uint flag = Convert.ToUInt16(split[1]);
Flags.setNodeTrafficLight(nodeId, flag > 0);
} catch (Exception e) {
// ignore as it's probably bad save data.
Log.Error($"Error setting the NodeTrafficLights: " + e.ToString());
error = true;
}
}
}
else
{
Log.Warning("Junction traffic lights data structure undefined!");
}
if (_configuration.LaneFlags != null)
{
Log.Info($"Loading lane arrow data");
#if DEBUG
Log._Debug($"LaneFlags: {_configuration.LaneFlags}");
#endif
var lanes = _configuration.LaneFlags.Split(',');
if (lanes.Length > 1)
{
foreach (var split in lanes.Select(lane => lane.Split(':')).Where(split => split.Length > 1))
{
try {
Log._Debug($"Split Data: {split[0]} , {split[1]}");
var laneId = Convert.ToUInt32(split[0]);
uint flags = Convert.ToUInt32(split[1]);
//make sure we don't cause any overflows because of bad save data.
if (Singleton <NetManager> .instance.m_lanes.m_buffer.Length <= laneId)
{
continue;
}
if (flags > ushort.MaxValue)
{
continue;
}
if (!NetUtil.IsLaneValid(laneId))
{
continue;
}
//Singleton<NetManager>.instance.m_lanes.m_buffer[laneId].m_flags = fixLaneFlags(Singleton<NetManager>.instance.m_lanes.m_buffer[laneId].m_flags);
uint laneArrowFlags = flags & Flags.lfr;
uint origFlags = (Singleton <NetManager> .instance.m_lanes.m_buffer[laneId].m_flags & Flags.lfr);
#if DEBUG
Log._Debug("Setting flags for lane " + laneId + " to " + flags + " (" + ((Flags.LaneArrows)(laneArrowFlags)).ToString() + ")");
if ((origFlags | laneArrowFlags) == origFlags) // only load if setting differs from default
{
Log._Debug("Flags for lane " + laneId + " are original (" + ((NetLane.Flags)(origFlags)).ToString() + ")");
}
#endif
Flags.setLaneArrowFlags(laneId, (Flags.LaneArrows)(laneArrowFlags));
} catch (Exception e) {
Log.Error($"Error loading Lane Split data. Length: {split.Length} value: {split}\nError: {e.ToString()}");
error = true;
}
}
}
}
else
{
Log.Warning("Lane arrow data structure undefined!");
}
// load lane connections
if (_configuration.LaneConnections != null)
{
Log.Info($"Loading {_configuration.LaneConnections.Count()} lane connections");
foreach (Configuration.LaneConnection conn in _configuration.LaneConnections)
{
try {
Log._Debug($"Loading lane connection: lane {conn.lowerLaneId} -> {conn.higherLaneId}");
LaneConnectionManager.Instance().AddLaneConnection(conn.lowerLaneId, conn.higherLaneId, conn.lowerStartNode);
} catch (Exception e) {
// ignore, as it's probably corrupt save data. it'll be culled on next save
Log.Error("Error loading data from lane connection: " + e.ToString());
error = true;
}
}
}
else
{
Log.Warning("Lane connection data structure undefined!");
}
// load speed limits
if (_configuration.LaneSpeedLimits != null)
{
Log.Info($"Loading lane speed limit data. {_configuration.LaneSpeedLimits.Count} elements");
foreach (Configuration.LaneSpeedLimit laneSpeedLimit in _configuration.LaneSpeedLimits)
{
try {
Log._Debug($"Loading lane speed limit: lane {laneSpeedLimit.laneId} = {laneSpeedLimit.speedLimit}");
Flags.setLaneSpeedLimit(laneSpeedLimit.laneId, laneSpeedLimit.speedLimit);
} catch (Exception e) {
// ignore, as it's probably corrupt save data. it'll be culled on next save
Log.Warning("Error loading speed limits: " + e.ToString());
error = true;
}
}
}
else
{
Log.Warning("Lane speed limit structure undefined!");
}
// Load segment-at-node flags
if (_configuration.SegmentNodeConfs != null)
{
Log.Info($"Loading segment-at-node data. {_configuration.SegmentNodeConfs.Count} elements");
foreach (Configuration.SegmentNodeConf segNodeConf in _configuration.SegmentNodeConfs)
{
try {
if (!NetUtil.IsSegmentValid(segNodeConf.segmentId))
{
continue;
}
Flags.setSegmentNodeFlags(segNodeConf.segmentId, true, segNodeConf.startNodeFlags);
Flags.setSegmentNodeFlags(segNodeConf.segmentId, false, segNodeConf.endNodeFlags);
} catch (Exception e) {
// ignore, as it's probably corrupt save data. it'll be culled on next save
Log.Warning("Error loading segment-at-node config: " + e.ToString());
error = true;
}
}
}
else
{
Log.Warning("Segment-at-node structure undefined!");
}
}
