isRightGreen() public method

public isRightGreen ( ) : bool
return bool
        /// <summary>
        /// Calculates the current metrics for flowing and waiting vehicles
        /// </summary>
        /// <param name="wait"></param>
        /// <param name="flow"></param>
        /// <returns>true if the values could be calculated, false otherwise</returns>
        public bool calcWaitFlow(out float wait, out float flow)
        {
#if TRACE
            Singleton <CodeProfiler> .instance.Start("TimedTrafficLightsStep.calcWaitFlow");
#endif

#if DEBUGMETRIC
            bool debug = timedNode.NodeId == 3201;
#else
            bool debug = false;
#endif

#if DEBUGMETRIC
            if (debug)
            {
                Log.Warning($"TimedTrafficLightsStep.calcWaitFlow: ***START*** @ node {timedNode.NodeId}");
            }
#endif

            uint numFlows    = 0;
            uint numWaits    = 0;
            uint curMeanFlow = 0;
            uint curMeanWait = 0;

            // we are the master node. calculate traffic data
            foreach (ushort timedNodeId in timedNode.NodeGroup)
            {
                TrafficLightSimulation sim = TrafficLightSimulation.GetNodeSimulation(timedNodeId);
                if (sim == null || !sim.IsTimedLight())
                {
                    continue;
                }
                TimedTrafficLights slaveTimedNode = sim.TimedLight;
                if (slaveTimedNode.NumSteps() <= timedNode.CurrentStep)
                {
                    for (int i = 0; i < slaveTimedNode.NumSteps(); ++i)
                    {
                        slaveTimedNode.GetStep(i).invalid = true;
                    }
                    continue;
                }
                TimedTrafficLightsStep slaveStep = slaveTimedNode.Steps[timedNode.CurrentStep];

                //List<int> segmentIdsToDelete = new List<int>();

                // minimum time reached. check traffic!
                foreach (KeyValuePair <ushort, CustomSegmentLights> e in slaveStep.segmentLights)
                {
                    var fromSegmentId = e.Key;
                    var segLights     = e.Value;

                    // one of the traffic lights at this segment is green: count minimum traffic flowing through
                    SegmentEnd fromSeg = TrafficPriority.GetPrioritySegment(timedNodeId, fromSegmentId);
                    if (fromSeg == null)
                    {
#if DEBUGMETRIC
                        if (debug)
                        {
                            Log.Warning($"TimedTrafficLightsStep.calcWaitFlow: No priority segment @ seg. {fromSegmentId} found!");
                        }
#endif
                        //Log.Warning("stepDone(): prioSeg is null");
                        //segmentIdsToDelete.Add(fromSegmentId);
                        continue;                         // skip invalid segment
                    }

                    //bool startPhase = getCurrentFrame() <= startFrame + minTime + 2; // during start phase all vehicles on "green" segments are counted as flowing
                    ExtVehicleType validVehicleTypes = VehicleRestrictionsManager.GetAllowedVehicleTypes(fromSegmentId, timedNode.NodeId);

                    foreach (KeyValuePair <byte, ExtVehicleType> e2 in segLights.VehicleTypeByLaneIndex)
                    {
                        byte           laneIndex   = e2.Key;
                        ExtVehicleType vehicleType = e2.Value;
                        if (vehicleType != ExtVehicleType.None && (validVehicleTypes & vehicleType) == ExtVehicleType.None)
                        {
                            continue;
                        }
                        CustomSegmentLight segLight = segLights.GetCustomLight(laneIndex);
                        if (segLight == null)
                        {
                            Log.Warning($"Timed traffic light step: Failed to get custom light for vehicleType {vehicleType} @ seg. {fromSegmentId}, node {timedNode.NodeId}!");
                            continue;
                        }

#if DEBUGMETRIC
                        if (debug)
                        {
                            Log._Debug($"TimedTrafficLightsStep.calcWaitFlow: Checking lane {laneIndex} @ seg. {fromSegmentId}. Vehicle types: {vehicleType}");
                        }
#endif

                        Dictionary <ushort, uint> carsFlowingToSegmentMetric = null;
                        Dictionary <ushort, uint> allCarsToSegmentMetric     = null;
                        try {
                            carsFlowingToSegmentMetric = fromSeg.GetVehicleMetricGoingToSegment(false, laneIndex, debug);
                        } catch (Exception ex) {
                            Log.Warning("calcWaitFlow (1): " + ex.ToString());
                        }

                        try {
                            allCarsToSegmentMetric = fromSeg.GetVehicleMetricGoingToSegment(true, laneIndex, debug);
                        } catch (Exception ex) {
                            Log.Warning("calcWaitFlow (2): " + ex.ToString());
                        }

                        if (carsFlowingToSegmentMetric == null)
                        {
                            continue;
                        }

                        // build directions from toSegment to fromSegment
                        Dictionary <ushort, Direction> directions = new Dictionary <ushort, Direction>();
                        foreach (KeyValuePair <ushort, uint> f in allCarsToSegmentMetric)
                        {
                            var             toSegmentId = f.Key;
                            SegmentGeometry geometry    = SegmentGeometry.Get(fromSegmentId);
                            Direction       dir         = geometry.GetDirection(toSegmentId, timedNodeId == geometry.StartNodeId());
                            directions[toSegmentId] = dir;
#if DEBUGMETRIC
                            if (debug)
                            {
                                Log._Debug($"TimedTrafficLightsStep.calcWaitFlow: Calculated direction for seg. {fromSegmentId} -> seg. {toSegmentId}: {dir}");
                            }
#endif
                        }

                        // calculate waiting/flowing traffic
                        foreach (KeyValuePair <ushort, uint> f in allCarsToSegmentMetric)
                        {
                            ushort toSegmentId               = f.Key;
                            uint   totalNormCarLength        = f.Value;
                            uint   totalFlowingNormCarLength = carsFlowingToSegmentMetric[f.Key];

#if DEBUGMETRIC
                            if (debug)
                            {
                                Log._Debug($"TimedTrafficLightsStep.calcWaitFlow: Total norm. car length of vehicles on lane {laneIndex} going to seg. {toSegmentId}: {totalNormCarLength}");
                            }
#endif

                            bool addToFlow = false;
                            switch (directions[toSegmentId])
                            {
                            case Direction.Turn:
                                addToFlow = TrafficPriority.IsLeftHandDrive() ? segLight.isRightGreen() : segLight.isLeftGreen();
                                break;

                            case Direction.Left:
                                addToFlow = segLight.isLeftGreen();
                                break;

                            case Direction.Right:
                                addToFlow = segLight.isRightGreen();
                                break;

                            case Direction.Forward:
                            default:
                                addToFlow = segLight.isForwardGreen();
                                break;
                            }

                            if (addToFlow)
                            {
                                ++numFlows;
                                curMeanFlow += totalFlowingNormCarLength;
                            }
                            else
                            {
                                ++numWaits;
                                curMeanWait += totalNormCarLength;
                            }

#if DEBUGMETRIC
                            if (debug)
                            {
                                Log._Debug($"TimedTrafficLightsStep.calcWaitFlow: Vehicles on lane {laneIndex} on seg. {fromSegmentId} going to seg. {toSegmentId} flowing? {addToFlow} curMeanFlow={curMeanFlow}, curMeanWait={curMeanWait}");
                            }
#endif
                        }
                    }
                }

                // delete invalid segments from step

                /*foreach (int segmentId in segmentIdsToDelete) {
                 *      slaveStep.segmentLightStates.Remove(segmentId);
                 * }*/

                if (slaveStep.segmentLights.Count <= 0)
                {
                    invalid = true;
                    flow    = 0f;
                    wait    = 0f;
#if TRACE
                    Singleton <CodeProfiler> .instance.Stop("TimedTrafficLightsStep.calcWaitFlow");
#endif
                    return(false);
                }
            }

#if DEBUGMETRIC
            if (debug)
            {
                Log._Debug($"TimedTrafficLightsStep.calcWaitFlow: ### Calculation completed. numFlows={numFlows}, numWaits={numWaits}, curMeanFlow={curMeanFlow}, curMeanWait={curMeanWait}");
            }

            wait = curMeanWait;
            flow = curMeanFlow;
#else
            if (numFlows > 0)
            {
                curMeanFlow /= numFlows;
            }
            if (numWaits > 0)
            {
                curMeanWait /= numWaits;
            }

            float fCurMeanFlow = curMeanFlow;
            fCurMeanFlow /= waitFlowBalance;             // a value smaller than 1 rewards steady traffic currents

            wait = (float)curMeanWait;
            flow = fCurMeanFlow;
#endif
#if TRACE
            Singleton <CodeProfiler> .instance.Stop("TimedTrafficLightsStep.calcWaitFlow");
#endif
            return(true);
        }
        /// <summary>
        /// Calculates the current metrics for flowing and waiting vehicles
        /// </summary>
        /// <param name="wait"></param>
        /// <param name="flow"></param>
        /// <returns>true if the values could be calculated, false otherwise</returns>
        public bool calcWaitFlow(out float wait, out float flow)
        {
#if DEBUG
            bool debug = timedNode.NodeId == 17857;
#else
            bool debug = false;
#endif

            uint numFlows    = 0;
            uint numWaits    = 0;
            uint curMeanFlow = 0;
            uint curMeanWait = 0;

            // we are the master node. calculate traffic data
            foreach (ushort timedNodeId in groupNodeIds)
            {
                TrafficLightSimulation sim = TrafficLightSimulation.GetNodeSimulation(timedNodeId);
                if (sim == null || !sim.IsTimedLight())
                {
                    continue;
                }
                TimedTrafficLights slaveTimedNode = sim.TimedLight;
                if (slaveTimedNode.NumSteps() <= timedNode.CurrentStep)
                {
                    for (int i = 0; i < slaveTimedNode.NumSteps(); ++i)
                    {
                        slaveTimedNode.GetStep(i).invalid = true;
                    }
                    continue;
                }
                TimedTrafficLightsStep slaveStep = slaveTimedNode.Steps[timedNode.CurrentStep];

                //List<int> segmentIdsToDelete = new List<int>();

                // minimum time reached. check traffic!
                foreach (KeyValuePair <ushort, CustomSegmentLights> e in slaveStep.segmentLights)
                {
                    var fromSegmentId = e.Key;
                    var segLights     = e.Value;

                    // one of the traffic lights at this segment is green: count minimum traffic flowing through
                    SegmentEnd fromSeg = TrafficPriority.GetPrioritySegment(timedNodeId, fromSegmentId);
                    if (fromSeg == null)
                    {
                        //Log.Warning("stepDone(): prioSeg is null");
                        //segmentIdsToDelete.Add(fromSegmentId);
                        continue;                         // skip invalid segment
                    }

                    bool           startPhase        = getCurrentFrame() <= startFrame + minTime + 2;    // during start phase all vehicles on "green" segments are counted as flowing
                    ExtVehicleType validVehicleTypes = VehicleRestrictionsManager.GetAllowedVehicleTypes(fromSegmentId, timedNode.NodeId);

                    foreach (ExtVehicleType vehicleType in segLights.VehicleTypes)
                    {
                        if (vehicleType != ExtVehicleType.None && (validVehicleTypes & vehicleType) == ExtVehicleType.None)
                        {
                            continue;
                        }
                        CustomSegmentLight segLight = segLights.GetCustomLight(vehicleType);
                        if (segLight == null)
                        {
                            Log.Warning($"Timed traffic light step: Failed to get custom light for vehicleType {vehicleType} @ seg. {fromSegmentId}, node {timedNode.NodeId}!");
                            continue;
                        }

                        Dictionary <ushort, uint>[] carsToSegmentMetrics = new Dictionary <ushort, uint> [startPhase ? 1: 2];
                        try {
                            carsToSegmentMetrics[0] = fromSeg.GetVehicleMetricGoingToSegment(null, vehicleType, segLights.SeparateVehicleTypes, debug);
                        } catch (Exception ex) {
                            Log.Warning("calcWaitFlow: " + ex.ToString());
                        }
                        if (!startPhase)
                        {
                            try {
                                carsToSegmentMetrics[1] = fromSeg.GetVehicleMetricGoingToSegment(0.1f, vehicleType, segLights.SeparateVehicleTypes, debug);
                            } catch (Exception ex) {
                                Log.Warning("calcWaitFlow: " + ex.ToString());
                            }
                        }

                        if (carsToSegmentMetrics[0] == null)
                        {
                            continue;
                        }

                        // build directions from toSegment to fromSegment
                        Dictionary <ushort, Direction> directions = new Dictionary <ushort, Direction>();
                        foreach (KeyValuePair <ushort, uint> f in carsToSegmentMetrics[0])
                        {
                            var             toSegmentId = f.Key;
                            SegmentGeometry geometry    = CustomRoadAI.GetSegmentGeometry(fromSegmentId);
                            Direction       dir         = geometry.GetDirection(toSegmentId, timedNodeId);
                            directions[toSegmentId] = dir;
                        }

                        // calculate waiting/flowing traffic
                        for (int i = 0; i < carsToSegmentMetrics.Length; ++i)
                        {
                            if (carsToSegmentMetrics[i] == null)
                            {
                                continue;
                            }

                            foreach (KeyValuePair <ushort, uint> f in carsToSegmentMetrics[i])
                            {
                                ushort toSegmentId        = f.Key;
                                uint   totalNormCarLength = f.Value;

                                bool addToFlow = false;
                                switch (directions[toSegmentId])
                                {
                                case Direction.Left:
                                    if (segLight.isLeftGreen())
                                    {
                                        addToFlow = true;
                                    }
                                    break;

                                case Direction.Right:
                                    if (segLight.isRightGreen())
                                    {
                                        addToFlow = true;
                                    }
                                    break;

                                case Direction.Forward:
                                default:
                                    if (segLight.isForwardGreen())
                                    {
                                        addToFlow = true;
                                    }
                                    break;
                                }

                                if (addToFlow)
                                {
                                    if (i > 0 || startPhase)
                                    {
                                        ++numFlows;
                                        curMeanFlow += totalNormCarLength;
                                    }
                                }
                                else if (i == 0)
                                {
                                    ++numWaits;
                                    curMeanWait += totalNormCarLength;
                                }
                            }
                        }
                    }
                }

                // delete invalid segments from step

                /*foreach (int segmentId in segmentIdsToDelete) {
                 *      slaveStep.segmentLightStates.Remove(segmentId);
                 * }*/

                if (slaveStep.segmentLights.Count <= 0)
                {
                    invalid = true;
                    flow    = 0f;
                    wait    = 0f;
                    return(false);
                }
            }

            if (numFlows > 0)
            {
                curMeanFlow /= numFlows;
            }
            if (numWaits > 0)
            {
                curMeanWait /= numWaits;
            }

            float fCurMeanFlow = curMeanFlow;
            fCurMeanFlow /= 100f * waitFlowBalance;             // a value smaller than 1 rewards steady traffic currents

            wait = (float)curMeanWait / 100f;
            flow = fCurMeanFlow;
            return(true);
        }