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/* $Id$ */
/*
* This file is part of OpenTTD.
* OpenTTD is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, version 2.
* OpenTTD is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
* See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with OpenTTD. If not, see <http://www.gnu.org/licenses/>.
*/
/** @file train.h Base for the train class. */
#ifndef TRAIN_H
#define TRAIN_H
#include "newgrf_engine.h"
#include "cargotype.h"
#include "rail.h"
#include "engine_base.h"
#include "rail_map.h"
#include "ground_vehicle.hpp"
struct Train;
enum VehicleRailFlags {
VRF_REVERSING = 0,
/* used to store if a wagon is powered or not */
VRF_POWEREDWAGON = 3,
/* used to reverse the visible direction of the vehicle */
VRF_REVERSE_DIRECTION = 4,
/* used to mark train as lost because PF can't find the route */
VRF_NO_PATH_TO_DESTINATION = 5,
/* used to mark that electric train engine is allowed to run on normal rail */
VRF_EL_ENGINE_ALLOWED_NORMAL_RAIL = 6,
/* used for vehicle var 0xFE bit 8 (toggled each time the train is reversed, accurate for first vehicle only) */
VRF_TOGGLE_REVERSE = 7,
/* used to mark a train that can't get a path reservation */
VRF_TRAIN_STUCK = 8,
/* used to mark a train that is just leaving a station */
VRF_LEAVING_STATION = 9,
};
/** Modes for ignoring signals. */
enum TrainForceProceeding {
TFP_NONE = 0, ///< Normal operation.
TFP_STUCK = 1, ///< Proceed till next signal, but ignore being stuck till then. This includes force leaving depots.
TFP_SIGNAL = 2, ///< Ignore next signal, after the signal ignore being stucked.
};
typedef SimpleTinyEnumT<TrainForceProceeding, byte> TrainForceProceedingByte;
byte FreightWagonMult(CargoID cargo);
void CheckTrainsLengths();
void FreeTrainTrackReservation(const Train *v, TileIndex origin = INVALID_TILE, Trackdir orig_td = INVALID_TRACKDIR);
bool TryPathReserve(Train *v, bool mark_as_stuck = false, bool first_tile_okay = false);
int GetTrainStopLocation(StationID station_id, TileIndex tile, const Train *v, int *station_ahead, int *station_length);
/** Variables that are cached to improve performance and such */
struct TrainCache {
/* Cached wagon override spritegroup */
const struct SpriteGroup *cached_override;
uint16 last_speed; // NOSAVE: only used in UI
/* cached values, recalculated on load and each time a vehicle is added to/removed from the consist. */
uint16 cached_total_length; ///< Length of the whole train, valid only for first engine.
uint8 cached_veh_length; ///< length of this vehicle in units of 1/8 of normal length, cached because this can be set by a callback
bool cached_tilt; ///< train can tilt; feature provides a bonus in curves
/* cached max. speed / acceleration data */
int cached_max_curve_speed; ///< max consist speed limited by curves
byte user_def_data;
EngineID first_engine; ///< cached EngineID of the front vehicle. INVALID_ENGINE for the front vehicle itself.
};
/**
* 'Train' is either a loco or a wagon.
*/
struct Train : public GroundVehicle<Train, VEH_TRAIN> {
TrainCache tcache;
/* Link between the two ends of a multiheaded engine */
Train *other_multiheaded_part;
uint16 crash_anim_pos;
uint16 flags;
TrackBitsByte track;
TrainForceProceedingByte force_proceed;
RailTypeByte railtype;
RailTypes compatible_railtypes;
/** Ticks waiting in front of a signal, ticks being stuck or a counter for forced proceeding through signals. */
uint16 wait_counter;
/** We don't want GCC to zero our struct! It already is zeroed and has an index! */
Train() : GroundVehicle<Train, VEH_TRAIN>() {}
/** We want to 'destruct' the right class. */
virtual ~Train() { this->PreDestructor(); }
friend struct GroundVehicle<Train, VEH_TRAIN>; // GroundVehicle needs to use the acceleration functions defined at Train.
const char *GetTypeString() const { return "train"; }
void MarkDirty();
void UpdateDeltaXY(Direction direction);
ExpensesType GetExpenseType(bool income) const { return income ? EXPENSES_TRAIN_INC : EXPENSES_TRAIN_RUN; }
void PlayLeaveStationSound() const;
bool IsPrimaryVehicle() const { return this->IsFrontEngine(); }
SpriteID GetImage(Direction direction) const;
int GetDisplaySpeed() const { return this->tcache.last_speed; }
int GetDisplayMaxSpeed() const { return this->vcache.cached_max_speed; }
Money GetRunningCost() const;
int GetDisplayImageWidth(Point *offset = NULL) const;
bool IsInDepot() const;
bool IsStoppedInDepot() const;
bool Tick();
void OnNewDay();
uint Crash(bool flooded = false);
Trackdir GetVehicleTrackdir() const;
TileIndex GetOrderStationLocation(StationID station);
bool FindClosestDepot(TileIndex *location, DestinationID *destination, bool *reverse);
void ReserveTrackUnderConsist() const;
int GetCurveSpeedLimit() const;
void ConsistChanged(bool same_length);
void RailtypeChanged();
int UpdateSpeed();
void UpdateAcceleration();
int GetCurrentMaxSpeed() const;
/**
* enum to handle train subtypes
* Do not access it directly unless you have to. Use the access functions below
* This is an enum to tell what bit to access as it is a bitmask
*/
enum TrainSubtype {
TS_FRONT = 0, ///< Leading engine of a train
TS_ARTICULATED_PART = 1, ///< Articulated part of an engine
TS_WAGON = 2, ///< Wagon
TS_ENGINE = 3, ///< Engine that can be front engine, but might be placed behind another engine.
TS_FREE_WAGON = 4, ///< First in a wagon chain (in depot)
TS_MULTIHEADED = 5, ///< Engine is multiheaded
};
/**
* Set front engine state
*/
FORCEINLINE void SetFrontEngine() { SetBit(this->subtype, TS_FRONT); }
/**
* Remove the front engine state
*/
FORCEINLINE void ClearFrontEngine() { ClrBit(this->subtype, TS_FRONT); }
/**
* Set a vehicle to be an articulated part
*/
FORCEINLINE void SetArticulatedPart() { SetBit(this->subtype, TS_ARTICULATED_PART); }
/**
* Clear a vehicle from being an articulated part
*/
FORCEINLINE void ClearArticulatedPart() { ClrBit(this->subtype, TS_ARTICULATED_PART); }
/**
* Set a vehicle to be a wagon
*/
FORCEINLINE void SetWagon() { SetBit(this->subtype, TS_WAGON); }
/**
* Clear wagon property
*/
FORCEINLINE void ClearWagon() { ClrBit(this->subtype, TS_WAGON); }
/**
* Set engine status
*/
FORCEINLINE void SetEngine() { SetBit(this->subtype, TS_ENGINE); }
/**
* Clear engine status
*/
FORCEINLINE void ClearEngine() { ClrBit(this->subtype, TS_ENGINE); }
/**
* Set if a vehicle is a free wagon
*/
FORCEINLINE void SetFreeWagon() { SetBit(this->subtype, TS_FREE_WAGON); }
/**
* Clear a vehicle from being a free wagon
*/
FORCEINLINE void ClearFreeWagon() { ClrBit(this->subtype, TS_FREE_WAGON); }
/**
* Set if a vehicle is a multiheaded engine
*/
FORCEINLINE void SetMultiheaded() { SetBit(this->subtype, TS_MULTIHEADED); }
/**
* Clear multiheaded engine property
*/
FORCEINLINE void ClearMultiheaded() { ClrBit(this->subtype, TS_MULTIHEADED); }
/**
* Check if train is a front engine
* @return Returns true if train is a front engine
*/
FORCEINLINE bool IsFrontEngine() const { return HasBit(this->subtype, TS_FRONT); }
/**
* Check if train is a free wagon (got no engine in front of it)
* @return Returns true if train is a free wagon
*/
FORCEINLINE bool IsFreeWagon() const { return HasBit(this->subtype, TS_FREE_WAGON); }
/**
* Check if a vehicle is an engine (can be first in a train)
* @return Returns true if vehicle is an engine
*/
FORCEINLINE bool IsEngine() const { return HasBit(this->subtype, TS_ENGINE); }
/**
* Check if a train is a wagon
* @return Returns true if vehicle is a wagon
*/
FORCEINLINE bool IsWagon() const { return HasBit(this->subtype, TS_WAGON); }
/**
* Check if train is a multiheaded engine
* @return Returns true if vehicle is a multiheaded engine
*/
FORCEINLINE bool IsMultiheaded() const { return HasBit(this->subtype, TS_MULTIHEADED); }
/**
* Tell if we are dealing with the rear end of a multiheaded engine.
* @return True if the engine is the rear part of a dualheaded engine.
*/
FORCEINLINE bool IsRearDualheaded() const { return this->IsMultiheaded() && !this->IsEngine(); }
/**
* Check if train is an articulated part of an engine
* @return Returns true if train is an articulated part
*/
FORCEINLINE bool IsArticulatedPart() const { return HasBit(this->subtype, TS_ARTICULATED_PART); }
/**
* Check if an engine has an articulated part.
* @return True if the engine has an articulated part.
*/
FORCEINLINE bool HasArticulatedPart() const { return this->Next() != NULL && this->Next()->IsArticulatedPart(); }
/**
* Get the next part of a multi-part engine.
* Will only work on a multi-part engine (this->EngineHasArticPart() == true),
* Result is undefined for normal engine.
* @return next part of articulated engine
*/
FORCEINLINE Train *GetNextArticPart() const
{
assert(this->HasArticulatedPart());
return this->Next();
}
/**
* Get the first part of a multi-part engine.
* @return First part of the engine.
*/
FORCEINLINE Train *GetFirstEnginePart()
{
Train *v = this;
while (v->IsArticulatedPart()) v = v->Previous();
return v;
}
/**
* Get the first part of a multi-part engine.
* @return First part of the engine.
*/
FORCEINLINE const Train *GetFirstEnginePart() const
{
const Train *v = this;
while (v->IsArticulatedPart()) v = v->Previous();
return v;
}
/**
* Get the last part of a multi-part engine.
* @return Last part of the engine.
*/
FORCEINLINE Train *GetLastEnginePart()
{
Train *v = this;
while (v->HasArticulatedPart()) v = v->GetNextArticPart();
return v;
}
/**
* Get the next real (non-articulated part) vehicle in the consist.
* @return Next vehicle in the consist.
*/
FORCEINLINE Train *GetNextVehicle() const
{
const Train *v = this;
while (v->HasArticulatedPart()) v = v->GetNextArticPart();
/* v now contains the last artic part in the engine */
return v->Next();
}
/**
* Get the previous real (non-articulated part) vehicle in the consist.
* @return Previous vehicle in the consist.
*/
FORCEINLINE Train *GetPrevVehicle() const
{
Train *v = this->Previous();
while (v != NULL && v->IsArticulatedPart()) v = v->Previous();
return v;
}
/**
* Get the next real (non-articulated part and non rear part of dualheaded engine) vehicle in the consist.
* @return Next vehicle in the consist.
*/
FORCEINLINE Train *GetNextUnit() const
{
Train *v = this->GetNextVehicle();
if (v != NULL && v->IsRearDualheaded()) v = v->GetNextVehicle();
return v;
}
/**
* Get the previous real (non-articulated part and non rear part of dualheaded engine) vehicle in the consist.
* @return Previous vehicle in the consist.
*/
FORCEINLINE Train *GetPrevUnit()
{
Train *v = this->GetPrevVehicle();
if (v != NULL && v->IsRearDualheaded()) v = v->GetPrevVehicle();
return v;
}
protected: // These functions should not be called outside acceleration code.
/**
* Allows to know the power value that this vehicle will use.
* @return Power value from the engine in HP, or zero if the vehicle is not powered.
*/
FORCEINLINE uint16 GetPower() const
{
/* Power is not added for articulated parts */
if (!this->IsArticulatedPart() && HasPowerOnRail(this->railtype, GetRailType(this->tile))) {
uint16 power = GetVehicleProperty(this, PROP_TRAIN_POWER, RailVehInfo(this->engine_type)->power);
/* Halve power for multiheaded parts */
if (this->IsMultiheaded()) power /= 2;
return power;
}
return 0;
}
/**
* Returns a value if this articulated part is powered.
* @return Power value from the articulated part in HP, or zero if it is not powered.
*/
FORCEINLINE uint16 GetPoweredPartPower(const Train *head) const
{
/* For powered wagons the engine defines the type of engine (i.e. railtype) */
if (HasBit(this->flags, VRF_POWEREDWAGON) && HasPowerOnRail(head->railtype, GetRailType(this->tile))) {
return RailVehInfo(this->tcache.first_engine)->pow_wag_power;
}
return 0;
}
/**
* Allows to know the weight value that this vehicle will use.
* @return Weight value from the engine in tonnes.
*/
FORCEINLINE uint16 GetWeight() const
{
uint16 weight = (CargoSpec::Get(this->cargo_type)->weight * this->cargo.Count() * FreightWagonMult(this->cargo_type)) / 16;
/* Vehicle weight is not added for articulated parts. */
if (!this->IsArticulatedPart()) {
weight += GetVehicleProperty(this, PROP_TRAIN_WEIGHT, RailVehInfo(this->engine_type)->weight);
}
/* Powered wagons have extra weight added. */
if (HasBit(this->flags, VRF_POWEREDWAGON)) {
weight += RailVehInfo(this->tcache.first_engine)->pow_wag_weight;
}
return weight;
}
/**
* Allows to know the tractive effort value that this vehicle will use.
* @return Tractive effort value from the engine.
*/
FORCEINLINE byte GetTractiveEffort() const
{
return GetVehicleProperty(this, PROP_TRAIN_TRACTIVE_EFFORT, RailVehInfo(this->engine_type)->tractive_effort);
}
/**
* Gets the area used for calculating air drag.
* @return Area of the engine in m^2.
*/
FORCEINLINE byte GetAirDragArea() const
{
/* Air drag is higher in tunnels due to the limited cross-section. */
return (this->track == TRACK_BIT_WORMHOLE && this->vehstatus & VS_HIDDEN) ? 28 : 14;
}
/**
* Gets the air drag coefficient of this vehicle.
* @return Air drag value from the engine.
*/
FORCEINLINE byte GetAirDrag() const
{
return RailVehInfo(this->engine_type)->air_drag;
}
/**
* Checks the current acceleration status of this vehicle.
* @return Acceleration status.
*/
FORCEINLINE AccelStatus GetAccelerationStatus() const
{
return (this->vehstatus & VS_STOPPED) || HasBit(this->flags, VRF_REVERSING) || HasBit(this->flags, VRF_TRAIN_STUCK) ? AS_BRAKE : AS_ACCEL;
}
/**
* Calculates the current speed of this vehicle.
* @return Current speed in km/h-ish.
*/
FORCEINLINE uint16 GetCurrentSpeed() const
{
return this->cur_speed;
}
/**
* Returns the rolling friction coefficient of this vehicle.
* @return Rolling friction coefficient in [1e-4].
*/
FORCEINLINE uint32 GetRollingFriction() const
{
/* Rolling friction for steel on steel is between 0.1% and 0.2%,
* but we use a higher value here to get better game-play results.
* The friction coefficient increases with speed in a way that
* it doubles at 512 km/h, triples at 1024 km/h and so on. */
return 30 * (512 + this->GetCurrentSpeed()) / 512;
}
/**
* Allows to know the acceleration type of a vehicle.
* @return Acceleration type of the vehicle.
*/
FORCEINLINE int GetAccelerationType() const
{
return GetRailTypeInfo(this->railtype)->acceleration_type;
}
/**
* Returns the slope steepness used by this vehicle.
* @return Slope steepness used by the vehicle.
*/
FORCEINLINE uint32 GetSlopeSteepness() const
{
return _settings_game.vehicle.train_slope_steepness;
}
/**
* Gets the maximum speed allowed by the track for this vehicle.
* @return Maximum speed allowed.
*/
FORCEINLINE uint16 GetMaxTrackSpeed() const
{
return GetRailTypeInfo(GetRailType(this->tile))->max_speed;
}
/**
* Checks if the vehicle is at a tile that can be sloped.
* @return True if the tile can be sloped.
*/
FORCEINLINE bool TileMayHaveSlopedTrack() const
{
/* Any track that isn't TRACK_BIT_X or TRACK_BIT_Y cannot be sloped. */
return this->track == TRACK_BIT_X || this->track == TRACK_BIT_Y;
}
};
#define FOR_ALL_TRAINS(var) FOR_ALL_VEHICLES_OF_TYPE(Train, var)
#endif /* TRAIN_H */
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