//========= Copyright 1996-2005, Valve Corporation, All rights reserved. ============// // // Purpose: // // $NoKeywords: $ //=============================================================================// #ifndef VEHICLES_H #define VEHICLES_H #ifdef _WIN32 #pragma once #endif #include "datamap.h" #define VEHICLE_TYPE_CAR_WHEELS (1<<0) #define VEHICLE_TYPE_CAR_RAYCAST (1<<1) #define VEHICLE_TYPE_JETSKI_RAYCAST (1<<2) #define VEHICLE_TYPE_AIRBOAT_RAYCAST (1<<3) #define VEHICLE_MAX_AXLE_COUNT 4 #define VEHICLE_MAX_GEAR_COUNT 6 #define VEHICLE_MAX_WHEEL_COUNT (2*VEHICLE_MAX_AXLE_COUNT) #define VEHICLE_TIRE_NORMAL 0 #define VEHICLE_TIRE_BRAKING 1 #define VEHICLE_TIRE_POWERSLIDE 2 struct vehicle_controlparams_t { float throttle; float steering; float brake; float boost; bool handbrake; bool handbrakeLeft; bool handbrakeRight; bool brakepedal; bool bHasBrakePedal; }; struct vehicle_operatingparams_t { DECLARE_SIMPLE_DATADESC(); float speed; float engineRPM; int gear; float boostDelay; int boostTimeLeft; bool skidding; float wheelSkidValue[VEHICLE_MAX_WHEEL_COUNT]; }; // Debug! #define VEHICLE_DEBUGRENDERDATA_MAX_WHEELS 10 #define VEHICLE_DEBUGRENDERDATA_MAX_AXLES 3 struct vehicle_debugcarsystem_t { Vector vecAxlePos[VEHICLE_DEBUGRENDERDATA_MAX_AXLES]; Vector vecWheelPos[VEHICLE_DEBUGRENDERDATA_MAX_WHEELS]; Vector vecWheelRaycasts[VEHICLE_DEBUGRENDERDATA_MAX_WHEELS][2]; Vector vecWheelRaycastImpacts[VEHICLE_DEBUGRENDERDATA_MAX_WHEELS]; }; struct vehicleparams_t; class IPhysicsVehicleController { public: virtual ~IPhysicsVehicleController() {} // call this from the game code with the control parameters virtual void Update( float dt, vehicle_controlparams_t &controls ) = 0; virtual const vehicle_operatingparams_t &GetOperatingParams() = 0; virtual const vehicleparams_t &GetVehicleParams() = 0; virtual vehicleparams_t &GetVehicleParamsForChange() = 0; virtual float UpdateBooster(float dt) = 0; virtual int GetWheelCount(void) = 0; virtual IPhysicsObject *GetWheel(int index) = 0; virtual void GetWheelContactPoint( int index, Vector &contact ) = 0; virtual float GetWheelSkidDeltaTime( int index ) = 0; virtual void SetSpringLength(int wheelIndex, float length) = 0; virtual void SetWheelFriction(int wheelIndex, float friction) = 0; virtual void OnVehicleEnter( void ) = 0; virtual void OnVehicleExit( void ) = 0; virtual void SetEngineDisabled( bool bDisable ) = 0; virtual bool IsEngineDisabled( void ) = 0; // Debug virtual void GetCarSystemDebugData( vehicle_debugcarsystem_t &debugCarSystem ) = 0; }; // parameters for the body object control of the vehicle struct vehicle_bodyparams_t { DECLARE_SIMPLE_DATADESC(); Vector massCenterOverride; // leave at vec3_origin for no override float massOverride; // leave at 0 for no override float addGravity; // keeps car down float tiltForce; // keeps car down when not on flat ground float tiltForceHeight; // where the tilt force pulls relative to center of mass float counterTorqueFactor; float keepUprightTorque; }; // wheel objects are created by vphysics, these are the parameters for those objects // NOTE: They are paired, so only one set of parameters is necessary per axle struct vehicle_wheelparams_t { DECLARE_SIMPLE_DATADESC(); float radius; float mass; float inertia; float damping; // usually 0 float rotdamping; // usually 0 float frictionScale; // 1.5 front, 1.8 rear int materialIndex; int brakeMaterialIndex; int skidMaterialIndex; float springAdditionalLength; // 0 means the spring is at it's rest length }; struct vehicle_suspensionparams_t { DECLARE_SIMPLE_DATADESC(); float springConstant; float springDamping; float stabilizerConstant; float springDampingCompression; float maxBodyForce; }; // NOTE: both raytrace and wheel data here because jetski uses both. struct vehicle_axleparams_t { DECLARE_SIMPLE_DATADESC(); Vector offset; // center of this axle in vehicle object space Vector wheelOffset; // offset to wheel (assume other wheel is symmetric at -wheelOffset) from axle center Vector raytraceCenterOffset; // offset to center of axle for the raytrace data. Vector raytraceOffset; // offset to raytrace for non-wheel (some wheeled) vehicles vehicle_wheelparams_t wheels; vehicle_suspensionparams_t suspension; float torqueFactor; // normalized to 1 across all axles // e.g. 0,1 for rear wheel drive - 0.5,0.5 for 4 wheel drive float brakeFactor; // normalized to 1 across all axles }; struct vehicle_steeringparams_t { DECLARE_SIMPLE_DATADESC(); float degrees; // angle in degrees of steering float steeringRateSlow; // this is the speed the wheels are steered when the vehicle is slow float steeringRateFast; // this is the speed the wheels are steered when the vehicle is "fast" float steeringRestFactor; // this is the speed at which the wheels move toward their resting state (straight ahead) float speedSlow; // this is the max speed of "slow" float speedFast; // this is the min speed of "fast" bool isSkidAllowed; // true/false skid flag bool dustCloud; // flag for creating a dustcloud behind vehicle }; struct vehicle_engineparams_t { DECLARE_SIMPLE_DATADESC(); float horsepower; float maxSpeed; float maxRevSpeed; float maxRPM; // redline RPM limit float axleRatio; // ratio of engine rev to axle rev float throttleTime; // time to reach full throttle in seconds // transmission bool isAutoTransmission; // true for auto, false for manual int gearCount; // gear count - max 10 float gearRatio[VEHICLE_MAX_GEAR_COUNT]; // ratio for each gear // automatic transmission (simple auto-shifter - switches at fixed RPM limits) float shiftUpRPM; // max RPMs to switch to a higher gear float shiftDownRPM; // min RPMs to switch to a lower gear float boostForce; float boostDuration; float boostDelay; float boostMaxSpeed; bool torqueBoost; }; struct vehicleparams_t { DECLARE_SIMPLE_DATADESC(); int axleCount; int wheelsPerAxle; vehicle_bodyparams_t body; vehicle_axleparams_t axles[VEHICLE_MAX_AXLE_COUNT]; vehicle_engineparams_t engine; vehicle_steeringparams_t steering; }; // Iterator for queries class CPassengerSeatTransition; typedef CUtlVector< CPassengerSeatTransition> PassengerSeatAnims_t; // Seat query types enum VehicleSeatQuery_e { VEHICLE_SEAT_ANY, // Any available seat for our role VEHICLE_SEAT_NEAREST, // Seat closest to our starting point }; // Seat anim types for return enum PassengerSeatAnimType_t { PASSENGER_SEAT_ENTRY, PASSENGER_SEAT_EXIT }; #define VEHICLE_SEAT_INVALID -1 // An invalid seat #endif // VEHICLES_H
# | Change | User | Description | Committed | |
---|---|---|---|---|---|
#1 | 5821 | Knut Wikstrom |
Added Valve Source code. This is NOT to be commited to other than new code from Valve. |