* @param speed Direction-independent unscaled speed.

	 * @return speed scaled by movement direction. 256 units are required for each movement step.

	 */

	{

		return (this->direction & 1) ? speed : speed * 3 / 4;

	}

	 * @param speed Direction-independent unscaled speed.

	 * @return speed, scaled to match #GetAdvanceDistance().

	 */

	{

		return speed * 3 / 4;

	}

	 *

	 * @return distance to drive for a movement step on the map.

	 */

	{

		return (this->direction & 1) ? 192 : 256;

	}

	 * Invalidates cached NewGRF variables

	 * @see InvalidateNewGRFCacheOfChain

	 */

	{

		this->grf_cache.cache_valid = 0;

	}

	 * Invalidates cached NewGRF variables of all vehicles in the chain (after the current vehicle)

	 * @see InvalidateNewGRFCache

	 */

	{

		for (Vehicle *u = this; u != NULL; u = u->Next()) {

			u->InvalidateNewGRFCache();

	 * Check if the vehicle is a ground vehicle.

	 * @return True iff the vehicle is a train or a road vehicle.

	 */

	{

		return this->type == VEH_TRAIN || this->type == VEH_ROAD;

	}

	 * Check if the vehicle is a front engine.

	 * @return Returns true if the vehicle is a front engine.

	 */

	{

		return this->IsGroundVehicle() && HasBit(this->subtype, GVSF_FRONT);

	}

	 * Check if the vehicle is an articulated part of an engine.

	 * @return Returns true if the vehicle is an articulated part.

	 */

	{

		return this->IsGroundVehicle() && HasBit(this->subtype, GVSF_ARTICULATED_PART);

	}

	 * Check if an engine has an articulated part.

	 * @return True if the engine has an articulated part.

	 */

	{

		return this->Next() != NULL && this->Next()->IsArticulatedPart();

	}

	 * @return Next part of the articulated engine.

	 * @pre The vehicle is an articulated engine.

	 */

	{

		assert(this->HasArticulatedPart());

		return this->Next();

	 * Get the first part of an articulated engine.

	 * @return First part of the engine.

	 */

	{

		Vehicle *v = this;

		while (v->IsArticulatedPart()) v = v->Previous();

	 * Get the first part of an articulated engine.

	 * @return First part of the engine.

	 */

	{

		const Vehicle *v = this;

		while (v->IsArticulatedPart()) v = v->Previous();

	 * Get the last part of an articulated engine.

	 * @return Last part of the engine.

	 */

	{

		Vehicle *v = this;

		while (v->HasArticulatedPart()) v = v->GetNextArticulatedPart();

	 * Get the next real (non-articulated part) vehicle in the consist.

	 * @return Next vehicle in the consist.

	 */

	{

		const Vehicle *v = this;

		while (v->HasArticulatedPart()) v = v->GetNextArticulatedPart();

	 * Get the previous real (non-articulated part) vehicle in the consist.

	 * @return Previous vehicle in the consist.

	 */

	{

		Vehicle *v = this->Previous();

		while (v != NULL && v->IsArticulatedPart()) v = v->Previous();

	/**

	 * Set vehicle type correctly

	 */

	/**

	 * Get the first vehicle in the chain

	 * @return first vehicle in the chain

	 */

	/**

	 * Get the last vehicle in the chain

	 * @return last vehicle in the chain

	 */

	/**

	 * Get the last vehicle in the chain

	 * @return last vehicle in the chain

	 */

	/**

	 * Get next vehicle in the chain

	 * @return next vehicle in the chain

	 */

	/**

	 * Get previous vehicle in the chain

	 * @return previous vehicle in the chain

	 */

	/**

	 * Get the next part of an articulated engine.

	 * @return Next part of the articulated engine.

	 * @pre The vehicle is an articulated engine.

	 */

	/**

	 * Get the next part of an articulated engine.

	 * @return Next part of the articulated engine.

	 * @pre The vehicle is an articulated engine.

	 */

	/**

	 * Get the first part of an articulated engine.

	 * @return First part of the engine.

	 */

	/**

	 * Get the first part of an articulated engine.

	 * @return First part of the engine.

	 */

	/**

	 * Get the last part of an articulated engine.

	 * @return Last part of the engine.

	 */

	/**

	 * Get the next real (non-articulated part) vehicle in the consist.

	 * @return Next vehicle in the consist.

	 */

	/**

	 * Get the previous real (non-articulated part) vehicle in the consist.

	 * @return Previous vehicle in the consist.

	 */

	/**

	 * Tests whether given index is a valid index for vehicle of this type

	 * @param index tested index

	 * @return is this index valid index of T?

	 */

	{

		return Vehicle::IsValidID(index) && Vehicle::Get(index)->type == Type;

	}

	 * Gets vehicle with given index

	 * @return pointer to vehicle with given index casted to T *

	 */

	{

		return (T *)Vehicle::Get(index);

	}

	 * Returns vehicle if the index is a valid index for this vehicle type

	 * @return pointer to vehicle with given index if it's a vehicle of this type

	 */

	{

		return IsValidID(index) ? Get(index) : NULL;

	}

	 * @param v Vehicle pointer

	 * @return pointer to SpecializedVehicle

	 */

	{

		assert(v->type == Type);

		return (T *)v;

	 * @param v Vehicle pointer

	 * @return pointer to SpecializedVehicle

	 */

	{

		assert(v->type == Type);

		return (const T *)v;

	 * @param moved Was the vehicle moved?

	 * @param turned Did the vehicle direction change?

	 */

	{

		extern void VehicleMove(Vehicle *v, bool update_viewport);