Class Vehicle

From TrainzOnline
Revision as of 00:18, 18 October 2010 by Windwalkr (Talk | contribs)

Jump to: navigation, search


  • A vehicle is a single piece of rolling stock including locomotives and tenders.
  • A vehicle is always part of a train, if a vehicle is decoupled and left alone TRS will create a new consist to include it.


Contents

Related Messages

  • Messages sent to and from Vehicle objects are listed below:


Major Minor Source Destination
Vehicle Derailed Vehicle Broadcast Vehicle has derailed and can no longer be used.
Vehicle Coupled Vehicle Broadcast Vehicle has coupled up with another vehicle.
Vehicle Decoupled Vehicle Broadcast Vehicle has decoupled from another vehicle.
Vehicle Bad Couple Vehicle Broadcast Vehicle has coupled with another vehicle at too high a velocity.
Vehicle Collided Vehicle Broadcast Vehicle has collided with another vehicle.


Constants


Coupler Flags


public define int COUPLE_NONE = 0 Neither coupler.
public define int COUPLE_FRONT = 1 Front coupler.
public define int COUPLE_BACK = 2 Back coupler.
public define int COUPLE_BOTH = COUPLE_FRONT ¦ COUPLE_BACK Both couplers.


Direction Relationships


public define int DIRECTION_NONE = 0 No known relationship.
public define int DIRECTION_FORWARD = 1 Forward, facing in the same direction.
public define int DIRECTION_BACKWARD = -1 Backward, facing in opposite directions.


Engine Types


public define int ENGINE_NONE = 0 Not a powered vehicle.
public define int ENGINE_STANDARD = 1 Diesel, Diesel-Electric, Electric.
public define int ENGINE_STEAM = 2 Steam powered.


Vehicle Type Flags


public define int TYPE_LOCOMOTIVE = 1 Vehicle is a powered locomotive.
public define int TYPE_TENDER = 2 Vehicle carries fuel for a locomotive.
public define int TYPE_HAS_INTERIOR = 4 Vehicle has an interior. This does not necessarily mean that it is a lcomotive.


Members


public IndustryProductInfoCollection vehicleProductInfoCollection A data object that allows tracking of products and associated assets & queues.


Methods


BeginLoad

float BeginLoad(LoadingReport report)
Parameters
  • report = Report on the current state of the loading operation.
Returned Value
  • The time required, in seconds, for the activity to complete.
Syntax
float BeginLoad(LoadingReport report) {
   DoStuff(report);
   return 10.0;
}
Notes
  • This is a callback method which should be overridden by the script writer to perform customised activities before loading at an industry.
  • These include such operations as particle effects and animations.
  • The report parameter provides details of the industries and vehicles involved and of their spatial relationship.
  • It is the responsibility of the script writer to determine the time required for these activities and to return this in the method result.


BeginUnload

float BeginUnload(LoadingReport report)
Parameters
  • report = Report on the current state of the loading operation.
Returned Value
  • The time required, in seconds, for the activity to complete.
Syntax
float BeginLoad(LoadingReport report) {
   DoStuff(report);
   return 10.0;
}
Notes
  • This is a callback method which should be overridden by the script writer to perform customised activities before loading at an industry.
  • These include such operations as particle effects and animations.
  • The report parameter provides details of the industries and vehicles involved and of their spatial relationship.
  • It is the responsibility of the script writer to determine the time required for these activities and to return this in the method result.


CanLoadProductFromQueue

public bool CanLoadProductFromQueue(ProductQueue queue)
Parameters
  • queue = The queue to be queried.
Returned Value
  • True if the vehicle and queue are compatible and the queue can be used to load the vehicle, false otherwise.
  • None
Syntax
if (CanLoadProductFromQueue(industryOutQueue)) {
   DoTheProcess();
}
Notes


CanUnloadProductToQueue

public bool CanUnloadProductToQueue(ProductQueue queue)
Parameters
  • queue = The queue to be queried.
Returned Value
  • True if the vehicle and queue are compatible and the queue can be used to unload the vehicle, false otherwise.
Syntax
if (CanUnloadProductToQueue(industryOutQueue)) {
   DoTheProcess();
}
Notes


Couple

public native bool Couple(Vehicle other)
Parameters
  • other' = Adjacent vehicle to couple to.
Returned Value
  • True if the operation was successfully completed, fale otherwise.
Syntax
if (Couple(vehicle2)) Interface.Print("Success!");
Notes
  • Couples this vehicle to the given vehicle which must already be adjacent.
  • When a vehicle is decoupled from another, the couplers are left in an unlocked state, even though the vehicles are flush against each other.
  • This state will remain until the vehicles move a small distance apart.
  • Sometimes you may wish to cause them to couple again and that is the intended use of this method.
  • If the two vehicles involved are not adjacent then this method will have no effect.


EndLoad

float EndLoad(LoadingReport report)
Parameters
  • report = Report on the current state of the loading operation.
Returned Value
  • The time required, in seconds, for the activity to complete.
Syntax
float EndLoad(LoadingReport report) {
   DoStuff(report);
   return 10.0;
}
Notes
  • This is a callback method which should be overridden by the script writer to perform customised activities after loading at an industry.
  • These include such operations as particle effects and animations.
  • The report parameter provides details of the industries and vehicles involved and of their spatial relationship.
  • It is the responsibility of the script writer to determine the time required for these activities and to return this in the method result.


EndUnload

float EndUnload(LoadingReport report)
Parameters
  • report = Report on the current state of the loading operation.
Returned Value
  • The time required, in seconds, for the activity to complete.
Syntax
float EndUnload(LoadingReport report) {
   DoStuff(report);
   return 10.0;
}
Notes
  • This is a callback method which should be overridden by the script writer to perform customised activities after unloading at an industry.
  • These include such operations as particle effects and animations.
  • The report parameter provides details of the industries and vehicles involved and of their spatial relationship.
  • It is the responsibility of the script writer to determine the time required for these activities and to return this in the method result.


GetAuxReservoirPressure

public native float GetAuxReservoirPressure(void)
Parameters
  • None
Returned Value
  • The current auxiliary reservoir pressure of this vehicle.
Syntax
float ARP = GetAuxReservoirPressure();
Notes


GetBogeyList

public native Bogey[ ] GetBogeyList(void)
Parameters
  • None
Returned Value
  • An array containing references to all the Bogey objects attached to this vehicle.
Syntax
Bogey[] bogies = GetBogeyList();
Notes
  • Bogies are indexed in the same numerical order as they are listed in config.txt.
  • Invisible bogies etc. are included.


GetBrakeCylinderPressure

public native float GetBrakeCylinderPressure(void)
Parameters
  • None
Returned Value
  • The current brake cylinder pressure of this vehicle.
Syntax
float BCP = GetBrakeCylinderPressure();
Notes


GetBrakePipePressure

public native float GetBrakePipePressure(void)
Parameters
  • None
Returned Value
  • The current brake pipe pressure of this vehicle.
Syntax
float BPP = GetBrakePipePressure();
Notes


GetCabinSwayAmount

public native float GetCabinSwayAmount(void)
Parameters
  • None
Returned Value
  • The cabin sway amount for this vehicle.
Syntax
float CSA = GetCabinSwayAmount();
Notes
  • Higher positive values indicate higher levels of cabin sway while a 0.0 indicates no cabin sway.
  • See also SetCabinSwayAmount().


GetCouplerBreakageEnabled

public native bool GetCouplerBreakageEnabled(void)
Parameters
  • None
Returned Value
  • True if coupler breakages are enabled on this vehicle, false otherwise.
Syntax
if (GetCouplerBreakageEnabled()) Interface.Print("Drive carefully to avoid breaking the couplers");
Notes


GetCouplingDirection

public native int GetCouplingDirection(Vehicle other)
Parameters
  • other' = Adjacent vehicle to couple to.
Returned Value
  • One of the Direction Relationship constants indicating the direction of a neighbouring vehicle, relative to the direction of the caller.
Syntax
bool direction = GetCouplingDirection(vehicle2);
Notes
  • If the result is DIRECTION_FORWARD then both vehicles have the same orientation.
  • If the result is DIRECTION_BACKWARD then the two vehicles face in opposite directions.
  • The fact that this method returns a value does not mean that it is possible for the two vehicles to couple.


GetCouplingStress

public native float GetCouplingStress(Vehicle other)
Parameters
  • other' = Other vehicle in the same consist to query.
Returned Value
  • The calculated coupling stress between the two vehicles in kilonewtons (kN);
Syntax
float kn = GetCouplingStress(vehicle2);
Notes
  • <float color=red>Must the two vehicles be adjacent?</font>


GetDefaultCabinSwayAmount

public native float GetDefaultCabinSwayAmount(void)
Parameters
  • None
Returned Value
  • The default cabin sway amount for this vehicle as defined in config.txt.
Syntax
float CSA = GetCabinSwayAmount();
Notes
  • Higher positive values indicate higher levels of cabin sway while a 0.0 indicates no cabin sway.
  • See also SetCabinSwayAmount().


GetDefaultMaximumCouplerCompressionStress

publc native float GetDefaultMaximumCouplerCompressionStress(void)
Parameters
  • None
Returned Value
  • The default maximum coupler expansion stress value for this vehicle in kilonewtons (kN), as defined in config.txt.
Syntax
float DMCS = GetDefaultMaximumCouplerCompressionStress();
Notes


GetDefaultMaximumCouplerExpansionStress

public native float GetDefaultMaximumCouplerExpansionStress(void)
Parameters
  • None
Returned Value
  • The default maximum coupler expansion stress value for this vehicle in kilonewtons (kN), as defined in config.txt.
Syntax
float DMCE = GetDefaultMaximumCouplerExpansionStress();
Notes


GetDefaultMaximumCoupleVelocity

public native float GetDefaultMaximumCoupleVelocity(void)
Parameters
  • None
Returned Value
  • The default maximum speed at which this vehicle can be coupled to without breaking the coupler, as defined in config.txt.
Syntax
float DMCV = GetDefaultMaximumCoupleVelocity();
Notes


GetDefaultMaximumTractiveEffort

GetDefaultMaximumTractiveEffort()
Parameters
  • None
Returned Value
  • The default maximum tractive effort of this vehicle from its configuration in kilonewtons (kN), as defined in config.txt.
Syntax
float DMTE = GetDefaultMaximumTractiveEffort();
Notes


GetDirectionRelativeToTrain

public native bool GetDirectionRelativeToTrain(void)
Parameters
  • None
Returned Value
  • True if this vehicle faces in the same direction as the train's current heading, false otherwise.
Syntax
bool vehicleToTrain = GetDirectionRelativeToTrain();
Notes


GetEngineParam

public native float GetEngineParam(string param)
Parameters
  • param = One of the engine parameter strings listed below.
Returned Value
  • The current value of the given engine parameter.
Syntax
float pressure = GetEngineParam("steam-boiler-pressure");
Notes
  • Engine parameter strings you can use with this method are:
    • "brake-cylinder-pressure"
    • "brake-pipe-pressure"
    • "coal-mass"
    • "current-drawn"
    • "equaliser-pressure"
    • "fire-temperature"
    • "flow"
    • "horn"
    • "main-reservoir-pressure"
    • "max-coal-mass"
    • "max-fire-temperature"
    • "no3-pipe-pressure"
    • "steam-boiler-liquid-percent"
    • "steam-boiler-pressure"
    • "steam-piston-cycle"
    • "wheelslip"
    • "engine-force"
    • "applied-force"
    • "max-te"
  • Some of the values refer only to steam engines.


GetEngineType

public native int GetEngineType(void)
Parameters
  • None
Returned Value
  • One of the Engine Type constants describing the engine type of this vehicle.
Syntax
int eType = GetEngineType();
Notes


GetLength

public native float GetLength(void)
Parameters
  • None
Returned Value
  • The length of this vehicle in metres.
Syntax
float length = GetLength();
Notes


GetLoadTime

float GetLoadTime(LoadingReport report)
Parameters
  • report = Report on the current state of the loading operation.
Returned Value
  • The time required, in seconds, for the activity to complete.
Syntax
float GetLoadTime(LoadingReport report) {
   DoStuff(report);
   return 10.0;
}
Notes
  • This is a callback method which informs the game engine of the time needed to load this vehicle.
  • The method may be use to perform customised activities during the loading operation.
  • These include such operations as particle effects and animations.
  • The report parameter provides details of the industries and vehicles involved and of their spatial relationship.
  • It is the responsibility of the script writer to determine the time required for these activities and to return this in the method result.


GetMass

public native float GetMass(void)
Parameters
  • None
Returned Value
  • The mass of the vehicle in kilograms.
Syntax
float mass = GetMass();
Notes


GetMaximumCouplerCompressionStress

publc native float GetMaximumCouplerCompressionStress(void)
Parameters
  • None
Returned Value
  • The maximum coupler expansion stress value for this vehicle in kilonewtons (kN).
Syntax
float MCS = GetMaximumCouplerCompressionStress();
Notes


GetMaximumCouplerExpansionStress

public native float GetMaximumCouplerExpansionStress(void)
Parameters
  • None
Returned Value
  • The maximum coupler expansion stress value for this vehicle in kilonewtons (kN).
Syntax
float DMCE = GetMaximumCouplerExpansionStress();
Notes


GetMaximumCoupleVelocity

public native float GetMaximumCoupleVelocity(void)
Parameters
  • None
Returned Value
  • The maximum speed at which this vehicle can be coupled to without breaking the coupler.
Syntax
float MCV = GetMaximumCoupleVelocity();
Notes


GetMaximumTractiveEffort

GetMaximumTractiveEffort()
Parameters
  • None
Returned Value
  • The maximum tractive effort of this vehicle from its configuration in kilonewtons (kN).
Syntax
float MTE = GetMaximumTractiveEffort();
Notes


GetMyTrain

public native Train GetMyTrain(void)
Parameters
  • None
Returned Value
  • A reference to the train of which this vehicle is part.
Syntax
Train train = GetMyTrain();
Notes
  • All vehicles belong to a Train consist, even if a vehicle is not coupled to any other vehicle.


GetProductRestriction

public ProductFilter GetProductRestriction(void)
Parameters
  • None
Returned Value
  • The current product restriction filter if any, null otherwise.
Syntax
ProductFilter filter = GetProductRestriction();
Notes


GetRelationToTrack

public native int GetRelationToTrack(Buildable obj, string trackName)
Parameters
  • obj = Reference to a Buildable object.
  • trackName = String representing the name of a track as defined in the Buildable's config.txt.
Returned Value
  • One of the Direction Relationship constants indicating the direction of the vehicle, relative to the Buildable's attached track.
Syntax
  • This method will return either DIRECTION_FORWARD or DIRECTION_BACKWARD if the vehicle is on the track as specified by the arguments or on a directly neighboring track, otherwise DIRECTION_NONE will be returned.
Notes


GetRunningNumber

public native string GetRunningNumber(void)
Parameters
  • None
Returned Value
  • The running (fleet identification) number of the vehicle.
Syntax
string fleetId = GetRunningNumber();
Notes
  • This value is set using SetRunningNumber() and should be restricted to alphanumeric characters and paces.


GetSandingTractionMultiplier

public native float GetSandingTractionMultiplier(void)
Parameters
  • None
Returned Value
  • A wheelslip traction multiplier to apply when sand is in use.
Syntax
float slipFactor = GetSandingTractionMultiplier();
Notes


GetTrackGradient

public native float GetTrackGradient(void)
Parameters
  • None
Returned Value
  • The current track gradient as a percentage.
Syntax
float gradient = GetTrackGradient();
Notes
  • The sign of the gradient is determined by the direction of this vehicle relative to the gradient.
  • A negative sign indicates that the vehicle is facing down a gradient while a positive sign indicates the vehicle is facing up a gradient.
  • The vehicle's direction may not match that of the train so the value returned here may not be what you expect.
  • Use GetDirectionRelativeToTrain() to check this.


GetUnloadTime

float GetUnloadTime(LoadingReport report)
Parameters
  • report = Report on the current state of the loading operation.
Returned Value
  • The time required, in seconds, for the activity to complete.
Syntax
float GetUnloadTime(LoadingReport report) {
   DoStuff(report);
   return 10.0;
}
Notes
  • This is a callback method which informs the game engine of the time needed to unload this vehicle.
  • The method may be use to perform customised activities during the unloading operation.
  • These include such operations as particle effects and animations.
  • The report parameter provides details of the industries and vehicles involved and of their spatial relationship.
  • It is the responsibility of the script writer to determine the time required for these activities and to return this in the method result.


GetVehicleTypeFlags

public native int GetVehicleTypeFlags(void)
Parameters
  • None
Returned Value
Syntax
int flags = GetVehicleTypeFlags();
Notes


GetVelocity

public native float GetVelocity(void)
Parameters
  • None
Returned Value
  • The current instantaneous velocity of the train in metres per second.
Syntax
float speed = GetVelocity();
Notes


GetWheelslipTractionMultiplier

public native float GetWheelslipTractionMultiplier(void)
Parameters
  • None
Returned Value
  • The current wheelslip traction multiplier value.
Syntax
float slip = GetWheelslipTractionMultiplier();
Notes


IsInTunnel

public native bool IsInTunnel(void)
Parameters
  • None
Returned Value
  • True if this vehicle is in a tunnel, false otherwise.
Syntax
bool underground = IsInTunnel();
Notes


IsOnBridge

public native void IsOnBridge(void)
Parameters
  • None
Returned Value
  • True if this vehicle is on a bridge, false otherwise.
Syntax
bool onBridge = IsOnBridge();
Notes


LoadProduct

public bool LoadProduct(LoadingReport report)
Parameters
  • report = Report on the current state of the loading operation.
Returned Value
  • True if the loading operation was successful, false otherwise.
Syntax
LoadProduct(report);
Notes
  • Loads products into this vehicle as defined by the given report.
  • This method works by attempting to transfer products to this vehicle's queues if possible from the industry queue specified in report.
  • The sequence of events for a loading operation as performed by this method is:
    • Verify that an loading operation is possible with this vehicle by calling CanLoadProductFromQueue().
    • BeginLoad() on this vehicle and Industry.BeginLoad() on the industry specified in the report are called to perform any pre-loading events like animation or particle effects on the vehicle and industry respectively.
    • Both of these methods return the amount of time required for a load operation and the LoadProduct() method sleeps for which ever of these times is the longer.
    • The actual product transfer from the industry to the vehicle is performed by calling ProductQueue.TransferProductFrom() on this vehicle's queue(s).
    • GetLoadTime() on this vehicle and Industry.GetLoadTime() are called. Again, LoadProduct() sleeps for which ever is the longer of the times returned.
    • EndLoad() and Industry.EndLoad() are called to perform any post-loading events. As before LoadProduct() sleeps for the longer time.


Reposition

public native bool Reposition(Train train, int myCoupleDir, int otherCoupleDir)
public native bool Reposition(Vehicle vehicle, int myCoupleDir, int otherCoupleDir)
public native bool Reposition(TrackMark mark, bool direction)
Parameters
  • train = Train to attach the vehicle to.
  • vehicle = Vehicle to attach the vehicle to.
  • myCoupleDir = The end of the current vehicle that will be coupled, use either COUPLE_FRONT or COUPLE_BACK.
  • otherCoupleDir = The end of the target vehicle that will be coupled to, use either COUPLE_FRONT or COUPLE_BACK.
  • mark = Trackmark to move this vehicle to.
  • direction = Direction for the vehicle, relative to the TrackMark.
  • None
Returned Value
  • True if the operation was successfully completed, false otherwise.
Syntax
Reposition(Train3,COUPLE_FRONT,COUPLE_BACK);
Reposition(Vehicle5,COUPLE_FRONT,COUPLE_BACK);
Reposition(Mark9,true);
Notes
  • Variant 1 moves the current vehicle and couples it to the specified train using the specified vehicle ends.
  • Variant 2 moves the current vehicle and couples it to the specified vehicle using the specified vehicle ends.
  • Variant 3 moves the current vehicle from its train to the specified trackmark, normally creating a new consist.


Reverse

public native bool Reverse(void)
Parameters
  • None
Returned Value
  • True if the operation was successfully completed, false otherwise.
Syntax
if (Reverse()) Interface.Print("Direction of " + GetName() + " reversed");
Notes
  • This method reverses the direction of the current vehicle in relation to its consist.


SetBrakePipeEfficiency

public native void SetBrakePipeEfficiency(float efficiency)
Parameters
  • efficiency = A Normalised value in the range 0.0 .. 1.0 representing the efficiency of the brake pipe.
Returned Value
  • None
Syntax
SetBrakePipeEfficiency(0.5);
Notes


SetBrokenBrakes

public native void SetBrokenBrakes(bool broken)
Parameters
  • broken = True to render the brakes non operational, false to repair them.
Returned Value
  • None
Syntax
SetBrokenBrakes(true);
Notes


SetCabinSwayAmount

public native void SetCabinSwayAmount(float amount)
Parameters
  • amount = Cabin sway value greater than or equal to zero.
Returned Value
  • None
Syntax
SetCabinSwayAmount(2.5);
Notes
  • A value of zero removes all sway.
  • Higher positive values increase the effect.
  • The method is only of relevance to vehicles with interior views.


SetCouplerBreakageEnabled

public native void SetCouplerBreakageEnabled(bool enabled)
Parameters
  • enabled = True enables simulation of coupler breakage.
  • None
Returned Value
  • None
Syntax
SetCouplerBreakageEnabled(true);
Notes


SetCouplingMask

public native void SetCouplingMask(int mask)
Parameters
  • mask = A mask specifying which of the vehilce's couplers are allowed to couple.
Returned Value
  • None
Syntax
SetCouplingMask(COUPLE_NONE); // prevents this vehicle from coupling to another in Driver mode.
Notes
  • The mask can be built using the Coupler Flag constants.
  • This method will not prevent vehicles from coupling in Surveyor, but takes effect in Driver mode.


SetDecouplingMask

public native void SetDecouplingMask(int mask)
Parameters
  • mask = A mask specifying which of the vehilce's couplers are allowed to couple.
Returned Value
  • None
Syntax
SetDecouplingMask(COUPLE_NONE); // prevents this vehicle from uncoupling in Driver mode.
Notes
  • The mask can be built using the Coupler Flag constants.
  • This method will not prevent vehicles from uncoupling in Surveyor, but takes effect in Driver mode.


SetHandbrake

public native void SetHandBrake(bool applied)
Parameters
  • applied = If true the handbrake is applied, if false the handbrake is released.
Returned Value
  • None
Syntax
SetHandBrake(true);
Notes


SetHeadlightColor

SetHeadlightColor(float red, float blue, float green)
Parameters
  • red, blue, green = RGB components of selected colour, expressed as normalised values.
Returned Value
  • None
Syntax
SetHeadlightColour(0.5,1.0,0.5); // sets colour to RGB:128,255,128
Notes
  • This method controls the color of the illumination produced by the headlights.
  • It does not affect the color of the headlight coronas.
  • This should method not be used to "turn off" the headlights, as even a black light will consume CPU time with lighting calculations.


SetMaximumCouplerCompressionStress

public native void SetMaximumCouplerCompressionStress(float stress)
Parameters
  • stress = Maximum compressive stress in kilonewtons (kN), Use 0.0 to turn off this simulation.
Returned Value
  • None
Syntax
SetMaximumCouplerCompressionStress(1500.0);
Notes
  • Sets the maximum coupler compressive stress value for this vehicle.
  • This value refers to the maximum compressive stress which this vehicle's couplers need to experience before they break.
  • This is effectively the stress that a coupler can withstand before it breaks.
  • As a point of reference, a typical modern knuckle-type coupler can handle approximately 2500 kN of force before breaking.
  • This is roughly equivalent to the weight of 2.5 million apples.


SetMaximumCouplerExpansionStress

public native void SetMaximumCouplerExpansionStress(float stress)
Parameters
  • stress = Maximum tensile stress in kilonewtons (kN), Use 0.0 to turn off this simulation.
Returned Value
  • None
Syntax
SetMaximumCouplerExpansionStress(1000.0);
Notes
  • Sets the maximum coupler tensile stress value for this vehicle.
  • This value refers to the maximum tesnile stress which this vehicle's couplers need to experience before they break.
  • This is effectively the stress that a coupler can withstand before it breaks.
  • As a point of reference, a typical modern knuckle-type coupler can handle approximately 2500 kN of force before breaking.
  • This is roughly equivalent to the weight of 2.5 million apples.


SetMaximumCoupleVelocity

public native void SetMaximumCoupleVelocity(float velocity)
Parameters
  • velocity = The maximum speed in metres per second at which this vehicle can be coupled to without breaking a coupler.
Returned Value
  • None
Syntax
SetMaximumCoupleVelocity(10);
Notes
  • "Vehicle","BadCouple" are broadcast if this speed is exceeded.
  • If a value of zero is used "Vehicle","BadCouple" messages will not be issued.


SetMaximumTractiveEffort

public native void SetMaximumTractiveEffort(float maxTE)
Parameters
  • maxTE = The maximum tractive effort of this vehicle in kilonewtons (kN).
Returned Value
  • None
Syntax
SetMaximumTractiveEffort(1850.0);
Notes
  • The maximum tractive effort of a vehicle refers to its maximum traction or pulling power measured in kilonewtons.
  • This value is initially defined in the configuration of a vehicle asset but can be altered with this method.
  • Generally, only locomotives will have tractive effort.


SetPitchBasedOnSpeed

public native void SetPitchBasedOnSpeed(float factor)
Parameters
  • factor = An arbitrary value used to vary the pitch of the train with its velocity.
Returned Value
  • None
Syntax
SetPitchBasedOnSpeed(2.5);
Notes
  • Pitch is rotation about an axis at right angles to the track direction.


SetPitchBasedOnTrack

public native void SetPitchBasedOnTrack(bool pitch)
Parameters
  • pitch = True to enable the effect, false to disable.
Returned Value
  • None
Syntax
SetPitchBasedOnTrack(true);
Notes
  • Pitch is rotation about an axis at right angles to the track direction.


SetProductDisabled

public native void SetProductDisabled(void)
Parameters
  • None
Returned Value
  • None
Syntax
SetProductDisabled();
Notes
  • Disables the loading or unloading of any product, overriding any previous calls to SetProductRestriction().


SetProductRestriction

public native bool SetProductRestriction(Asset product)
Parameters
  • product = Asset to to which this vehicle's load is to be restricted.
Returned Value
  • True if successful, false otherwise.
Syntax
SetProductRestriction(coal);
Notes
  • Restricts this vehicle to only allow the given product.
  • When a product restriction is in effect, only that product may be either loaded or unloaded.
  • This method overrides any previous call to SetProductDisabled().
  • If the product parameter is null, any product compatible with this vehicle can be loaded/unloaded.
  • If it is a product that is not compatible with this vehicle, no restriction is set and false will be returned.


SetQueueInitialCount

public void SetQueueInitialCount(ProductQueue queue, Asset product, int amount)
Parameters
  • queue = Queue to use, any existing products in this queue will be destroyed.
  • product = Asset of product to use.
  • amount = Amount of product to use.
Returned Value
  • None
Syntax
SetQueueInitialCount(passengerQueue,passengers,20);
Notes
  • Fills the given queue with the specified quantity of product.
  • This method sets the amount of products in the given queue.
  • It is a utility method that works on the given queue which need not be a queue from this vehicle.
  • The product filter provided with queue will be used to check if the queue can take products of type asset.
  • If it can't, the filter will be modified to suit as this method is forceful in that regard.


SetRollBasedOnTrack

public native void SetRollBasedOnTrack(float factor)
Parameters
  • factor = Arbitrary value used to control the amount of roll.
Returned Value
  • None
Syntax
SetRollBasedOnTrack(2.0);
Notes
  • Roll is a rotation about an axis parallel to the track direction.
  • Use a positive value to lean 'into' the curve, a negative value to lean out.


SetRunningNumber

public native void SetRunningNumber(string number)
Parameters
  • number = The running (fleet identification) number of the vehicle.
Returned Value
  • None
Syntax
SetRunningNumber("21C1");
SetRunningNumber("4472");
Notes
  • This value is retrieved using GetRunningNumber() and should be restricted to alphanumeric characters and spaces.


SetSandingTractionMultiplier

public native void SetSandingTractionMultiplier(float factor)
Parameters
  • factor = A multiplier value of 1.0 or more defining the increase in this vehicle's tractive effort when sand is in use.
Returned Value
  • None
Syntax
SetSandingTractionMultiplier(1.5); // allow sanding to increase tractive effort by 50%
Notes


SetWheelslipTractionMultiplier

public native void SetWheelslipTractionMultiplier(float factor)
Parameters
  • factor = A multiplier value of 1.0 or less to apply to decrease this vehicle's traction when wheelslip occurs.
Returned Value
  • None
Syntax
SetWheelslipTractionMultiplier(0.25); // wheelslip reduces tractive effort to 25% of normal.
Notes


Uncouple

public native void Uncouple(int end)
public native void Uncouple(Vehicle other)
Parameters
  • end = One of the Direction Relationship constants indicating at which end of the current vehicle the uncoupling is to occur.
  • other = A reference to the other vehicle form which the caller is to be uncoupled.
Returned Value
  • None
Syntax
Uncouple(DIRECTION_FORWARD);  // uncouple at the current vehicle's front end
Uncouple(vehicle1);           // uncouple from the specified vehicle
Notes
  • This method will always cause another Train object to be created.
  • The current Train reference will remain on the section of the previous train with the most drivers declared.


UnloadProduct

public bool UnloadProduct(LoadingReport report)
Parameters
  • report = Report on the current state of the loading operation.
Returned Value
  • True if the unloading operation was successful, false otherwise.
Syntax
UnloadProduct(report);
Notes
  • Unloads products into this vehicle as defined by the given report.
  • This method works by attempting to transfer products from this vehicle's queues to the industry queue specified in report.
  • The sequence of events for an unloading operation as performed by this method is:
    • Verify that an unloading operation is possible with this vehicle by calling CanUnloadProductToQueue().
    • BeginUnload() on this vehicle and Industry.BeginUnload() on the industry specified in the report are called to perform any pre-unloading events like animation or particle effects on the vehicle and industry respectively.
    • Both of these methods return the amount of time required for an unloading operation and the UnloadProduct() method sleeps for which ever of these times is the longer.
    • The actual product transfer to the industry from the vehicle is performed by calling ProductQueue.TransferProductFrom() on the industry queue(s).
    • GetUnloadTime() on this vehicle and Industry.GetUnloadTime() are called. Again, UnloadProduct() sleeps for which ever is the longer of the times returned.
    • EndUnload() and Industry.EndUnload() are called to perform any post-loading events. As before UnloadProduct() sleeps for the longer time.


UpdateViewDetails

void UpdateViewDetails(Message msg)
Parameters
  • msg = Message object which triggers this handler.
Returned Value
  • None
Notes
  • Update the view details window for this vehicle (from the train).
  • This method is setup by Init() as a handler method for a message of type "Vehicle","LoadComplete".
  • Such a message indicates that the load or queue of the vehicle have changed and the view details window of the train will need to be updated.


ViewDetails

void ViewDetails(Message msg)
Parameters
  • msg = Message object which triggers this handler.
Returned Value
  • None
Notes
  • View details window for this vehicle using the Train's output.
  • This method is setup by Init() as a handler method for a message of type "MapObject","ViewDetails".object.
  • Such a message indicates that the user has opened the right-click menu of the vehicle and selected the "View Details" menu item.
  • This method will call the ViewDetails() method of this vehicle's train so that a Browser window describing the entire train can be displayed to the user.


ViewSchedule

void ViewSchedule(Message msg)
Parameters
  • msg = Message object which triggers this handler.
Returned Value
  • None
Notes
  • View the schedule window for this vehicle from the train.
  • This method is setup by Init() as a handler method for a message of type "MapObject","View-Schedule".
  • Such a message indicates that the schedule of the vehicle or train is to be displayed for the user.
  • This method calls through to Train.UpdateScheduleWindow().


Code Examples


Related Methods

Train.GetVehicles()
World.GetVehicleList()

Categories

Personal tools