/// <summary> /// Inserts the information about the effort of the named edge valid from begin time to end time into the global edge weights container. /// </summary> /// <param name="id"></param> /// <param name="beginTime"></param> /// <param name="endTime"></param> /// <param name="effortValue"></param> /// <returns></returns> public TraCIResponse <object> SetEffort(string id, double beginTime, double endTime, double effortValue) { var tmp = new CompoundObject(); tmp.Value.Add(new TraCIDouble() { Value = beginTime }); tmp.Value.Add(new TraCIDouble() { Value = endTime }); tmp.Value.Add(new TraCIDouble() { Value = effortValue }); return(TraCICommandHelper.ExecuteSetCommand <object, CompoundObject>( Client, id, TraCIConstants.CMD_SET_EDGE_VARIABLE, TraCIConstants.VAR_EDGE_EFFORT, tmp )); }
/// <summary> /// Adds the defined Polygon /// </summary> /// <param name="id"></param> /// <param name="name"></param> /// <param name="color"></param> /// <param name="filled"></param> /// <param name="layer"></param> /// <param name="shape"></param> /// <returns></returns> public TraCIResponse <object> Add(string id, string name, Color color, bool filled, int layer, Polygon shape) { var tmp = new CompoundObject(); tmp.Value.Add(new TraCIString() { Value = name }); tmp.Value.Add(color); tmp.Value.Add(new TraCIUByte() { Value = filled == false ? (byte)0: (byte)1 }); tmp.Value.Add(new TraCIInteger() { Value = layer }); tmp.Value.Add(shape); return(TraCICommandHelper.ExecuteSetCommand <object, CompoundObject>( Client, id, TraCIConstants.CMD_SET_POLYGON_VARIABLE, TraCIConstants.ADD, tmp )); }
// TODO: 'extended retrieval', see: http://sumo.dlr.de/wiki/TraCI/Edge_Value_Retrieval /// <summary> /// Inserts the information about the travel time of the named edge valid from begin time to end time into the global edge weights times container. /// </summary> /// <param name="id"></param> /// <param name="beginTime"></param> /// <param name="endTime"></param> /// <param name="travelTimeValue"></param> /// <returns></returns> public TraCIResponse <double> AdaptTraveltime(string id, int beginTime, int endTime, double travelTimeValue) { var tmp = new CompoundObject(); tmp.Value.Add(new TraCIInteger() { Value = beginTime }); tmp.Value.Add(new TraCIInteger() { Value = endTime }); tmp.Value.Add(new TraCIDouble() { Value = travelTimeValue }); return(TraCICommandHelper.ExecuteSetCommand <double, CompoundObject>( Client, id, TraCIConstants.CMD_SET_EDGE_VARIABLE, TraCIConstants.VAR_EDGE_TRAVELTIME, tmp )); }
/// <summary> /// Appends a stage walking to the plan of the given person. /// </summary> /// <param name="id"></param> /// <param name="edges"></param> /// <param name="arrivalPosition"></param> /// <param name="duration"></param> /// <param name="speed"></param> /// <param name="stopId"></param> /// <returns></returns> public TraCIResponse <object> AppendWalkingStage(string id, List <string> edges, double arrivalPosition, int duration, double speed, string stopId) { var tmp = new CompoundObject(); tmp.Value.Add(new TraCIInteger() { Value = 2 }); tmp.Value.Add(new TraCIStringList() { Value = edges }); tmp.Value.Add(new TraCIDouble() { Value = arrivalPosition }); tmp.Value.Add(new TraCIString() { Value = stopId }); return(TraCICommandHelper.ExecuteSetCommand <object, CompoundObject>( Client, id, TraCIConstants.CMD_SET_PERSON_VARIABLE, TraCIConstants.APPEND_STAGE, tmp )); }
/// <summary> /// Appends a stage waiting to the plan of the given person. /// </summary> /// <param name="id"></param> /// <param name="duration"></param> /// <param name="description"></param> /// <param name="stopId"></param> /// <returns></returns> public TraCIResponse <object> AppendWaitingStage(string id, int duration, string description, string stopId) { var tmp = new CompoundObject(); tmp.Value.Add(new TraCIInteger() { Value = 1 }); tmp.Value.Add(new TraCIInteger() { Value = duration }); tmp.Value.Add(new TraCIString() { Value = description }); tmp.Value.Add(new TraCIString() { Value = stopId }); return(TraCICommandHelper.ExecuteSetCommand <object, CompoundObject>( Client, id, TraCIConstants.CMD_SET_PERSON_VARIABLE, TraCIConstants.APPEND_STAGE, tmp )); }
// TODO: 'extended retrieval', see: http://sumo.dlr.de/wiki/TraCI/Person_Value_Retrieval /// <summary> /// Inserts a new person to the simulation at the given edge, position and time (in s). This function should be followed by appending Stages or the person will immediately vanish on departure. /// </summary> /// <param name="id"></param> /// <param name="typeId"></param> /// <param name="initialEdgeId"></param> /// <param name="departTime"></param> /// <param name="departPosition"></param> /// <returns></returns> public TraCIResponse <object> Add(string id, string typeId, string initialEdgeId, double departTime, double departPosition) { var tmp = new CompoundObject(); tmp.Value.Add(new TraCIString() { Value = typeId }); tmp.Value.Add(new TraCIString() { Value = initialEdgeId }); tmp.Value.Add(new TraCIDouble() { Value = departTime }); tmp.Value.Add(new TraCIDouble() { Value = departPosition }); return(TraCICommandHelper.ExecuteSetCommand <object, CompoundObject>( Client, id, TraCIConstants.CMD_SET_PERSON_VARIABLE, TraCIConstants.ADD, tmp )); }
/// <summary> /// Sets a new maximum allowed speed on the lane in m/s. /// </summary> public void SetMaxSpeed(string laneId, double maxSpeed) { TraCICommandHelper.ExecuteSetCommand <object, double>( Client, laneId, TraCIConstants.CMD_SET_LANE_VARIABLE, TraCIConstants.VAR_MAXSPEED, maxSpeed); }
/// <summary> /// Sets the length of the lane in m /// </summary> public void SetLength(string laneId, double length) { TraCICommandHelper.ExecuteSetCommand <object, double>( Client, laneId, TraCIConstants.CMD_SET_LANE_VARIABLE, TraCIConstants.VAR_LENGTH, length); }
/// <summary> /// Sets a list of allowed vehicle classes. /// </summary> public void SetAllowed(string laneId, List <string> allowedVehicleClasses) { TraCICommandHelper.ExecuteSetCommand <object, List <string> >( Client, laneId, TraCIConstants.CMD_SET_LANE_VARIABLE, TraCIConstants.LANE_ALLOWED, allowedVehicleClasses); }
public void SetDuration(string id, int phaseDuration) { TraCICommandHelper.ExecuteSetCommand <object, int>( Client, id, TraCIConstants.CMD_SET_TL_VARIABLE, TraCIConstants.TL_PHASE_DURATION, phaseDuration); }
public void SetPhase(string id, int phaseIndex) { TraCICommandHelper.ExecuteSetCommand <object, int>( Client, id, TraCIConstants.CMD_SET_TL_VARIABLE, TraCIConstants.TL_PHASE_INDEX, phaseIndex); }
/// <summary> /// Sets the phase of the traffic light to the given. The given index must be valid for the current /// program of the traffic light, this means it must be between 0 and the number of phases known to /// the current program of the tls - 1. /// </summary> /// <param name="id"></param> /// <param name="phaseIndex"></param> /// <returns></returns> public TraCIResponse <object> SetPhase(string id, int phaseIndex) { return(TraCICommandHelper.ExecuteSetCommand <object, int>( Client, id, TraCIConstants.CMD_SET_TL_VARIABLE, TraCIConstants.TL_PHASE_INDEX, phaseIndex)); }
/// <summary> /// Sets a new maximum allowed speed on the lane in m/s. /// </summary> public TraCIResponse <object> SetMaxSpeed(string laneId, double maxSpeed) { return(TraCICommandHelper.ExecuteSetCommand <object, double>( Client, laneId, TraCIConstants.CMD_SET_LANE_VARIABLE, TraCIConstants.VAR_MAXSPEED, maxSpeed)); }
public void SetRedYellowGreenState(string id, string state) { TraCICommandHelper.ExecuteSetCommand <object, string>( Client, id, TraCIConstants.CMD_SET_TL_VARIABLE, TraCIConstants.TL_RED_YELLOW_GREEN_STATE, state); }
/// <summary> /// Sets a list of disallowed vehicle classes. /// </summary> public TraCIResponse <object> SetDisallowed(string laneId, List <string> disallowedVehicleClasses) { return(TraCICommandHelper.ExecuteSetCommand <object, List <string> >( Client, laneId, TraCIConstants.CMD_SET_LANE_VARIABLE, TraCIConstants.LANE_DISALLOWED, disallowedVehicleClasses)); }
/// <summary> /// Sets the length of the lane in m /// </summary> public TraCIResponse <object> SetLength(string laneId, double length) { return(TraCICommandHelper.ExecuteSetCommand <object, double>( Client, laneId, TraCIConstants.CMD_SET_LANE_VARIABLE, TraCIConstants.VAR_LENGTH, length)); }
/// <summary> /// Switches the traffic light to the given program. No WAUT algorithm is used, the program is /// directly instantiated. The index of the traffic light stays the same as before. /// </summary> /// <param name="id"></param> /// <param name="program"></param> /// <returns></returns> public TraCIResponse <object> SetProgram(string id, string program) { return(TraCICommandHelper.ExecuteSetCommand <object, string>( Client, id, TraCIConstants.CMD_SET_TL_VARIABLE, TraCIConstants.TL_PROGRAM, program)); }
/// <summary> /// Sets the remaining duration of the current phase in seconds. /// </summary> /// <param name="id"></param> /// <param name="phaseDuration"></param> /// <returns></returns> public TraCIResponse <object> SetPhaseDuration(string id, double phaseDuration) { return(TraCICommandHelper.ExecuteSetCommand <object, double>( Client, id, TraCIConstants.CMD_SET_TL_VARIABLE, TraCIConstants.TL_PHASE_DURATION, phaseDuration)); }
public void SetProgram(string id, string program) { TraCICommandHelper.ExecuteSetCommand <object, string>( Client, id, TraCIConstants.CMD_SET_TL_VARIABLE, TraCIConstants.TL_PROGRAM, program); }
/// <summary> /// Removes the defined Polygon /// </summary> /// <param name="id"></param> /// <param name="layer"></param> /// <returns></returns> public TraCIResponse <object> Remove(string id, int layer) { return(TraCICommandHelper.ExecuteSetCommand <object, int>( Client, id, TraCIConstants.CMD_SET_POLYGON_VARIABLE, TraCIConstants.REMOVE, layer )); }
/// <summary> /// Save a screenshot to the given file /// </summary> /// <param name="id"></param> /// <param name="filename"></param> /// <returns></returns> public TraCIResponse <object> Screenshot(string id, string filename) { return(TraCICommandHelper.ExecuteSetCommand <object, string>( Client, id, TraCIConstants.CMD_SET_GUI_VARIABLE, TraCIConstants.VAR_SCREENSHOT, filename )); }
/// <summary> /// Marks that the polygon shall be filled if the value is !=0. /// </summary> /// <param name="id"></param> /// <param name="filled"></param> /// <returns></returns> public TraCIResponse <object> SetFilled(string id, byte filled) { return(TraCICommandHelper.ExecuteSetCommand <object, byte>( Client, id, TraCIConstants.CMD_SET_POLYGON_VARIABLE, TraCIConstants.VAR_FILL, filled )); }
/// <summary> /// Moves the center of the visible network to the given position /// </summary> /// <param name="id"></param> /// <param name="position"></param> /// <returns></returns> public TraCIResponse <object> SetOffset(string id, Position2D position) { return(TraCICommandHelper.ExecuteSetCommand <object, Position2D>( Client, id, TraCIConstants.CMD_SET_GUI_VARIABLE, TraCIConstants.VAR_VIEW_OFFSET, position )); }
/// <summary> /// Sets the polygon's shape to the given value /// </summary> /// <param name="id"></param> /// <param name="polygon"></param> /// <returns></returns> public TraCIResponse <object> SetShape(string id, Polygon polygon) { return(TraCICommandHelper.ExecuteSetCommand <object, Polygon>( Client, id, TraCIConstants.CMD_SET_POLYGON_VARIABLE, TraCIConstants.VAR_SHAPE, polygon )); }
/// <summary> /// Sets the visualization scheme (e.g. "standard") /// </summary> /// <param name="id"></param> /// <param name="schema"></param> /// <returns></returns> public TraCIResponse <object> SetSchema(string id, string schema) { return(TraCICommandHelper.ExecuteSetCommand <object, string>( Client, id, TraCIConstants.CMD_SET_GUI_VARIABLE, TraCIConstants.VAR_VIEW_SCHEMA, schema )); }
/// <summary> /// Sets the polygon's type to the given value /// </summary> /// <param name="id"></param> /// <param name="typeId"></param> /// <returns></returns> public TraCIResponse <object> SetType(string id, string typeId) { return(TraCICommandHelper.ExecuteSetCommand <object, string>( Client, id, TraCIConstants.CMD_SET_POLYGON_VARIABLE, TraCIConstants.VAR_TYPE, typeId )); }
/// <summary> /// Sets the current zoom level in % /// </summary> /// <param name="id"></param> /// <param name="zoom"></param> /// <returns></returns> public TraCIResponse <object> SetZoom(string id, double zoom) { return(TraCICommandHelper.ExecuteSetCommand <object, double>( Client, id, TraCIConstants.CMD_SET_GUI_VARIABLE, TraCIConstants.VAR_VIEW_ZOOM, zoom )); }
/// <summary> /// tracks the given vehicle in the GUI /// </summary> /// <param name="id"></param> /// <param name="vehicleId"></param> /// <returns></returns> public TraCIResponse <object> TrackVehicle(string id, string vehicleId) { return(TraCICommandHelper.ExecuteSetCommand <object, string>( Client, id, TraCIConstants.CMD_SET_GUI_VARIABLE, TraCIConstants.VAR_TRACK_VEHICLE, vehicleId )); }
/// <summary> /// Sets the polygon's color to the given value /// </summary> /// <param name="id"></param> /// <param name="color"></param> /// <returns></returns> public TraCIResponse <object> SetColor(string id, Color color) { return(TraCICommandHelper.ExecuteSetCommand <object, Color>( Client, id, TraCIConstants.CMD_SET_POLYGON_VARIABLE, TraCIConstants.VAR_COLOR, color )); }
/// <summary> /// Moves the center of the visible network to the given position /// </summary> /// <param name="id"></param> /// <param name="boundaryBox"></param> /// <returns></returns> public TraCIResponse <object> SetBoundary(string id, Polygon boundaryBox) { return(TraCICommandHelper.ExecuteSetCommand <object, Polygon>( Client, id, TraCIConstants.CMD_SET_GUI_VARIABLE, TraCIConstants.VAR_VIEW_BOUNDARY, boundaryBox )); }