/* =========================================================================== Doom 3 GPL Source Code Copyright (C) 1999-2011 id Software LLC, a ZeniMax Media company. This file is part of the Doom 3 GPL Source Code (?Doom 3 Source Code?). Doom 3 Source Code 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, either version 3 of the License, or (at your option) any later version. Doom 3 Source Code 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 Doom 3 Source Code. If not, see . In addition, the Doom 3 Source Code is also subject to certain additional terms. You should have received a copy of these additional terms immediately following the terms and conditions of the GNU General Public License which accompanied the Doom 3 Source Code. If not, please request a copy in writing from id Software at the address below. If you have questions concerning this license or the applicable additional terms, you may contact in writing id Software LLC, c/o ZeniMax Media Inc., Suite 120, Rockville, Maryland 20850 USA. =========================================================================== */ #ifndef __GAME_ENTITY_H__ #define __GAME_ENTITY_H__ /* =============================================================================== Game entity base class. =============================================================================== */ static const int DELAY_DORMANT_TIME = 3000; extern const idEventDef EV_PostSpawn; extern const idEventDef EV_FindTargets; extern const idEventDef EV_Touch; extern const idEventDef EV_Use; extern const idEventDef EV_Activate; extern const idEventDef EV_ActivateTargets; extern const idEventDef EV_Hide; extern const idEventDef EV_Show; extern const idEventDef EV_GetShaderParm; extern const idEventDef EV_SetShaderParm; extern const idEventDef EV_SetOwner; extern const idEventDef EV_GetAngles; extern const idEventDef EV_SetAngles; extern const idEventDef EV_SetLinearVelocity; extern const idEventDef EV_SetAngularVelocity; extern const idEventDef EV_SetSkin; extern const idEventDef EV_StartSoundShader; extern const idEventDef EV_StopSound; extern const idEventDef EV_CacheSoundShader; // Think flags enum { TH_ALL = -1, TH_THINK = 1, // run think function each frame TH_PHYSICS = 2, // run physics each frame TH_ANIMATE = 4, // update animation each frame TH_UPDATEVISUALS = 8, // update renderEntity TH_UPDATEPARTICLES = 16 }; // // Signals // make sure to change script/doom_defs.script if you add any, or change their order // typedef enum { SIG_TOUCH, // object was touched SIG_USE, // object was used SIG_TRIGGER, // object was activated SIG_REMOVED, // object was removed from the game SIG_DAMAGE, // object was damaged SIG_BLOCKED, // object was blocked SIG_MOVER_POS1, // mover at position 1 (door closed) SIG_MOVER_POS2, // mover at position 2 (door open) SIG_MOVER_1TO2, // mover changing from position 1 to 2 SIG_MOVER_2TO1, // mover changing from position 2 to 1 NUM_SIGNALS } signalNum_t; // FIXME: At some point we may want to just limit it to one thread per signal, but // for now, I'm allowing multiple threads. We should reevaluate this later in the project #define MAX_SIGNAL_THREADS 16 // probably overkill, but idList uses a granularity of 16 struct signal_t { int threadnum; const function_t *function; }; class signalList_t { public: idList signal[ NUM_SIGNALS ]; }; class idEntity : public idClass { public: static const int MAX_PVS_AREAS = 4; int entityNumber; // index into the entity list int entityDefNumber; // index into the entity def list idLinkList spawnNode; // for being linked into spawnedEntities list idLinkList activeNode; // for being linked into activeEntities list idLinkList snapshotNode; // for being linked into snapshotEntities list int snapshotSequence; // last snapshot this entity was in int snapshotBits; // number of bits this entity occupied in the last snapshot idStr name; // name of entity idDict spawnArgs; // key/value pairs used to spawn and initialize entity idScriptObject scriptObject; // contains all script defined data for this entity int thinkFlags; // TH_? flags int dormantStart; // time that the entity was first closed off from player bool cinematic; // during cinematics, entity will only think if cinematic is set renderView_t * renderView; // for camera views from this entity idEntity * cameraTarget; // any remoteRenderMap shaders will use this idList< idEntityPtr > targets; // when this entity is activated these entities entity are activated int health; // FIXME: do all objects really need health? struct entityFlags_s { bool notarget :1; // if true never attack or target this entity bool noknockback :1; // if true no knockback from hits bool takedamage :1; // if true this entity can be damaged bool hidden :1; // if true this entity is not visible bool bindOrientated :1; // if true both the master orientation is used for binding bool solidForTeam :1; // if true this entity is considered solid when a physics team mate pushes entities bool forcePhysicsUpdate :1; // if true always update from the physics whether the object moved or not bool selected :1; // if true the entity is selected for editing bool neverDormant :1; // if true the entity never goes dormant bool isDormant :1; // if true the entity is dormant bool hasAwakened :1; // before a monster has been awakened the first time, use full PVS for dormant instead of area-connected bool networkSync :1; // if true the entity is synchronized over the network bool grabbed :1; // if true object is currently being grabbed } fl; #ifdef _D3XP int timeGroup; bool noGrab; //bc public bool isFrobbable; int uiAlarmTimer; int uiHackTimer; int lastThrowTime; void Event_ClearCameraTarget( void ); renderEntity_t xrayEntity; qhandle_t xrayEntityHandle; const idDeclSkin * xraySkin; void DetermineTimeGroup( bool slowmo ); void SetGrabbedState( bool grabbed ); bool IsGrabbed(); #endif //moved to public. void Event_SetGui( int guiNum, const char *guiName); public: ABSTRACT_PROTOTYPE( idEntity ); idEntity(); ~idEntity(); void Spawn( void ); void Save( idSaveGame *savefile ) const; void Restore( idRestoreGame *savefile ); const char * GetEntityDefName( void ) const; void SetName( const char *name ); const char * GetName( void ) const; virtual void UpdateChangeableSpawnArgs( const idDict *source ); // clients generate views based on all the player specific options, // cameras have custom code, and everything else just uses the axis orientation virtual renderView_t * GetRenderView(); // thinking virtual void Think( void ); bool CheckDormant( void ); // dormant == on the active list, but out of PVS virtual void DormantBegin( void ); // called when entity becomes dormant virtual void DormantEnd( void ); // called when entity wakes from being dormant bool IsActive( void ) const; void BecomeActive( int flags ); void BecomeInactive( int flags ); void UpdatePVSAreas( const idVec3 &pos ); // visuals virtual void Present( void ); virtual renderEntity_t *GetRenderEntity( void ); virtual int GetModelDefHandle( void ); virtual void SetModel( const char *modelname ); void SetSkin( const idDeclSkin *skin ); const idDeclSkin * GetSkin( void ) const; void SetShaderParm( int parmnum, float value ); virtual void SetColor( float red, float green, float blue ); virtual void SetColor( const idVec3 &color ); virtual void GetColor( idVec3 &out ) const; virtual void SetColor( const idVec4 &color ); virtual void GetColor( idVec4 &out ) const; virtual void FreeModelDef( void ); virtual void FreeLightDef( void ); virtual void Hide( void ); virtual void Show( void ); bool IsHidden( void ) const; void UpdateVisuals( void ); void UpdateModel( void ); void UpdateModelTransform( void ); virtual void ProjectOverlay( const idVec3 &origin, const idVec3 &dir, float size, const char *material ); int GetNumPVSAreas( void ); const int * GetPVSAreas( void ); void ClearPVSAreas( void ); bool PhysicsTeamInPVS( pvsHandle_t pvsHandle ); // animation virtual bool UpdateAnimationControllers( void ); bool UpdateRenderEntity( renderEntity_s *renderEntity, const renderView_t *renderView ); static bool ModelCallback( renderEntity_s *renderEntity, const renderView_t *renderView ); virtual idAnimator * GetAnimator( void ); // returns animator object used by this entity // sound virtual bool CanPlayChatterSounds( void ) const; bool StartSound( const char *soundName, const s_channelType channel, int soundShaderFlags, bool broadcast, int *length ); bool StartSoundShader( const idSoundShader *shader, const s_channelType channel, int soundShaderFlags, bool broadcast, int *length ); void StopSound( const s_channelType channel, bool broadcast ); // pass SND_CHANNEL_ANY to stop all sounds void SetSoundVolume( float volume ); void UpdateSound( void ); int GetListenerId( void ) const; idSoundEmitter * GetSoundEmitter( void ) const; void FreeSoundEmitter( bool immediate ); // entity binding virtual void PreBind( void ); virtual void PostBind( void ); virtual void PreUnbind( void ); virtual void PostUnbind( void ); void JoinTeam( idEntity *teammember ); void Bind( idEntity *master, bool orientated ); void BindToJoint( idEntity *master, const char *jointname, bool orientated ); void BindToJoint( idEntity *master, jointHandle_t jointnum, bool orientated ); void BindToBody( idEntity *master, int bodyId, bool orientated ); void Unbind( void ); bool IsBound( void ) const; bool IsBoundTo( idEntity *master ) const; idEntity * GetBindMaster( void ) const; jointHandle_t GetBindJoint( void ) const; int GetBindBody( void ) const; idEntity * GetTeamMaster( void ) const; idEntity * GetNextTeamEntity( void ) const; void ConvertLocalToWorldTransform( idVec3 &offset, idMat3 &axis ); idVec3 GetLocalVector( const idVec3 &vec ) const; idVec3 GetLocalCoordinates( const idVec3 &vec ) const; idVec3 GetWorldVector( const idVec3 &vec ) const; idVec3 GetWorldCoordinates( const idVec3 &vec ) const; bool GetMasterPosition( idVec3 &masterOrigin, idMat3 &masterAxis ) const; void GetWorldVelocities( idVec3 &linearVelocity, idVec3 &angularVelocity ) const; // physics // set a new physics object to be used by this entity void SetPhysics( idPhysics *phys ); // get the physics object used by this entity idPhysics * GetPhysics( void ) const; // restore physics pointer for save games void RestorePhysics( idPhysics *phys ); // run the physics for this entity bool RunPhysics( void ); // set the origin of the physics object (relative to bindMaster if not NULL) void SetOrigin( const idVec3 &org ); // set the axis of the physics object (relative to bindMaster if not NULL) void SetAxis( const idMat3 &axis ); // use angles to set the axis of the physics object (relative to bindMaster if not NULL) void SetAngles( const idAngles &ang ); // get the floor position underneath the physics object bool GetFloorPos( float max_dist, idVec3 &floorpos ) const; // retrieves the transformation going from the physics origin/axis to the visual origin/axis virtual bool GetPhysicsToVisualTransform( idVec3 &origin, idMat3 &axis ); // retrieves the transformation going from the physics origin/axis to the sound origin/axis virtual bool GetPhysicsToSoundTransform( idVec3 &origin, idMat3 &axis ); // called from the physics object when colliding, should return true if the physics simulation should stop virtual bool Collide( const trace_t &collision, const idVec3 &velocity ); // retrieves impact information, 'ent' is the entity retrieving the info virtual void GetImpactInfo( idEntity *ent, int id, const idVec3 &point, impactInfo_t *info ); // apply an impulse to the physics object, 'ent' is the entity applying the impulse virtual void ApplyImpulse( idEntity *ent, int id, const idVec3 &point, const idVec3 &impulse ); // add a force to the physics object, 'ent' is the entity adding the force virtual void AddForce( idEntity *ent, int id, const idVec3 &point, const idVec3 &force ); // activate the physics object, 'ent' is the entity activating this entity virtual void ActivatePhysics( idEntity *ent ); // returns true if the physics object is at rest virtual bool IsAtRest( void ) const; // returns the time the physics object came to rest virtual int GetRestStartTime( void ) const; // add a contact entity virtual void AddContactEntity( idEntity *ent ); // remove a touching entity virtual void RemoveContactEntity( idEntity *ent ); // damage // returns true if this entity can be damaged from the given origin virtual bool CanDamage( const idVec3 &origin, idVec3 &damagePoint ) const; // applies damage to this entity virtual void Damage( idEntity *inflictor, idEntity *attacker, const idVec3 &dir, const char *damageDefName, const float damageScale, const int location ); // adds a damage effect like overlays, blood, sparks, debris etc. virtual void AddDamageEffect( const trace_t &collision, const idVec3 &velocity, const char *damageDefName ); // callback function for when another entity received damage from this entity. damage can be adjusted and returned to the caller. virtual void DamageFeedback( idEntity *victim, idEntity *inflictor, int &damage ); // notifies this entity that it is in pain virtual bool Pain( idEntity *inflictor, idEntity *attacker, int damage, const idVec3 &dir, int location ); // notifies this entity that is has been killed virtual void Killed( idEntity *inflictor, idEntity *attacker, int damage, const idVec3 &dir, int location ); // scripting virtual bool ShouldConstructScriptObjectAtSpawn( void ) const; virtual idThread * ConstructScriptObject( void ); virtual void DeconstructScriptObject( void ); void SetSignal( signalNum_t signalnum, idThread *thread, const function_t *function ); void ClearSignal( idThread *thread, signalNum_t signalnum ); void ClearSignalThread( signalNum_t signalnum, idThread *thread ); bool HasSignal( signalNum_t signalnum ) const; void Signal( signalNum_t signalnum ); void SignalEvent( idThread *thread, signalNum_t signalnum ); // gui void TriggerGuis( void ); bool HandleGuiCommands( idEntity *entityGui, const char *cmds ); virtual bool HandleSingleGuiCommand( idEntity *entityGui, idLexer *src ); // targets void FindTargets( void ); void RemoveNullTargets( void ); void ActivateTargets( idEntity *activator ) const; // misc virtual void Teleport( const idVec3 &origin, const idAngles &angles, idEntity *destination ); bool TouchTriggers( void ) const; idCurve_Spline *GetSpline( void ) const; virtual void ShowEditingDialog( void ); enum { EVENT_STARTSOUNDSHADER, EVENT_STOPSOUNDSHADER, EVENT_MAXEVENTS }; virtual void ClientPredictionThink( void ); virtual void WriteToSnapshot( idBitMsgDelta &msg ) const; virtual void ReadFromSnapshot( const idBitMsgDelta &msg ); virtual bool ServerReceiveEvent( int event, int time, const idBitMsg &msg ); virtual bool ClientReceiveEvent( int event, int time, const idBitMsg &msg ); void WriteBindToSnapshot( idBitMsgDelta &msg ) const; void ReadBindFromSnapshot( const idBitMsgDelta &msg ); void WriteColorToSnapshot( idBitMsgDelta &msg ) const; void ReadColorFromSnapshot( const idBitMsgDelta &msg ); void WriteGUIToSnapshot( idBitMsgDelta &msg ) const; void ReadGUIFromSnapshot( const idBitMsgDelta &msg ); void ServerSendEvent( int eventId, const idBitMsg *msg, bool saveEvent, int excludeClient ) const; void ClientSendEvent( int eventId, const idBitMsg *msg ) const; protected: renderEntity_t renderEntity; // used to present a model to the renderer int modelDefHandle; // handle to static renderer model refSound_t refSound; // used to present sound to the audio engine private: idPhysics_Static defaultPhysicsObj; // default physics object idPhysics * physics; // physics used for this entity idEntity * bindMaster; // entity bound to if unequal NULL jointHandle_t bindJoint; // joint bound to if unequal INVALID_JOINT int bindBody; // body bound to if unequal -1 idEntity * teamMaster; // master of the physics team idEntity * teamChain; // next entity in physics team int numPVSAreas; // number of renderer areas the entity covers int PVSAreas[MAX_PVS_AREAS]; // numbers of the renderer areas the entity covers signalList_t * signals; int mpGUIState; // local cache to avoid systematic SetStateInt private: void FixupLocalizedStrings(); bool DoDormantTests( void ); // dormant == on the active list, but out of PVS // physics // initialize the default physics void InitDefaultPhysics( const idVec3 &origin, const idMat3 &axis ); // update visual position from the physics void UpdateFromPhysics( bool moveBack ); // entity binding bool InitBind( idEntity *master ); // initialize an entity binding void FinishBind( void ); // finish an entity binding void RemoveBinds( void ); // deletes any entities bound to this object void QuitTeam( void ); // leave the current team void UpdatePVSAreas( void ); // events void Event_GetName( void ); void Event_SetName( const char *name ); void Event_FindTargets( void ); void Event_ActivateTargets( idEntity *activator ); void Event_NumTargets( void ); void Event_GetTarget( float index ); void Event_RandomTarget( const char *ignore ); void Event_Bind( idEntity *master ); void Event_BindPosition( idEntity *master ); void Event_BindToJoint( idEntity *master, const char *jointname, float orientated ); void Event_Unbind( void ); void Event_RemoveBinds( void ); void Event_SpawnBind( void ); void Event_SetOwner( idEntity *owner ); void Event_SetModel( const char *modelname ); void Event_SetSkin( const char *skinname ); void Event_GetShaderParm( int parmnum ); void Event_SetShaderParm( int parmnum, float value ); void Event_SetShaderParms( float parm0, float parm1, float parm2, float parm3 ); void Event_SetColor( float red, float green, float blue ); void Event_GetColor( void ); void Event_IsHidden( void ); void Event_Hide( void ); void Event_Show( void ); void Event_CacheSoundShader( const char *soundName ); void Event_StartSoundShader( const char *soundName, int channel ); void Event_StopSound( int channel, int netSync ); void Event_StartSound( const char *soundName, int channel, int netSync ); void Event_FadeSound( int channel, float to, float over ); void Event_GetWorldOrigin( void ); void Event_SetWorldOrigin( idVec3 const &org ); void Event_GetOrigin( void ); void Event_SetOrigin( const idVec3 &org ); void Event_GetAngles( void ); void Event_SetAngles( const idAngles &ang ); void Event_SetLinearVelocity( const idVec3 &velocity ); void Event_GetLinearVelocity( void ); void Event_SetAngularVelocity( const idVec3 &velocity ); void Event_GetAngularVelocity( void ); void Event_SetSize( const idVec3 &mins, const idVec3 &maxs ); void Event_GetSize( void ); void Event_GetMins( void ); void Event_GetMaxs( void ); void Event_Touches( idEntity *ent ); void Event_SetGuiParm( const char *key, const char *val ); void Event_SetGuiFloat( const char *key, float f ); void Event_GetNextKey( const char *prefix, const char *lastMatch ); void Event_SetKey( const char *key, const char *value ); void Event_GetKey( const char *key ); void Event_GetIntKey( const char *key ); void Event_GetFloatKey( const char *key ); void Event_GetVectorKey( const char *key ); void Event_GetEntityKey( const char *key ); void Event_RestorePosition( void ); void Event_UpdateCameraTarget( void ); void Event_DistanceTo( idEntity *ent ); void Event_DistanceToPoint( const idVec3 &point ); void Event_StartFx( const char *fx ); void Event_WaitFrame( void ); void Event_Wait( float time ); void Event_HasFunction( const char *name ); void Event_CallFunction( const char *name ); void Event_CallFunctionArg( const char *name, int arg ); void Event_SetNeverDormant( int enable ); void Event_SetFrobbable( int enable );//bc void Event_SetSolid( int enable ); void Event_deck_print( const char *text ); void Event_deck_printline( const char *text ); void Event_SetClipModel( const char *clipModelName ); //bc flite //void Event_flitespeech( const char *text ); void Event_deck_cls( void ); void Event_SetCameraTarget( idEntity *ent ); void Event_getNearestEnemy(); void Event_canSeeEntity( idEntity *ent ); bool CanSeeEntity( idEntity *ent ); void Event_GetIndex( void ); #ifdef _D3XP void Event_PrecacheGui( const char *guiName ); void Event_GetGuiParm(int guiNum, const char *key); void Event_GetGuiParmFloat(int guiNum, const char *key); void Event_GuiNamedEvent(int guiNum, const char *event); #endif }; /* =============================================================================== Animated entity base class. =============================================================================== */ typedef struct damageEffect_s { jointHandle_t jointNum; idVec3 localOrigin; idVec3 localNormal; int time; const idDeclParticle* type; struct damageEffect_s * next; } damageEffect_t; class idAnimatedEntity : public idEntity { public: CLASS_PROTOTYPE( idAnimatedEntity ); idAnimatedEntity(); ~idAnimatedEntity(); void Save( idSaveGame *savefile ) const; void Restore( idRestoreGame *savefile ); virtual void ClientPredictionThink( void ); virtual void Think( void ); void UpdateAnimation( void ); virtual idAnimator * GetAnimator( void ); virtual void SetModel( const char *modelname ); bool GetJointWorldTransform( jointHandle_t jointHandle, int currentTime, idVec3 &offset, idMat3 &axis ); bool GetJointTransformForAnim( jointHandle_t jointHandle, int animNum, int currentTime, idVec3 &offset, idMat3 &axis ) const; virtual int GetDefaultSurfaceType( void ) const; virtual void AddDamageEffect( const trace_t &collision, const idVec3 &velocity, const char *damageDefName ); void AddLocalDamageEffect( jointHandle_t jointNum, const idVec3 &localPoint, const idVec3 &localNormal, const idVec3 &localDir, const idDeclEntityDef *def, const idMaterial *collisionMaterial ); void UpdateDamageEffects( void ); virtual bool ClientReceiveEvent( int event, int time, const idBitMsg &msg ); enum { EVENT_ADD_DAMAGE_EFFECT = idEntity::EVENT_MAXEVENTS, EVENT_MAXEVENTS }; //BC int Event_PlayAnim( const char* animname, int animBlendFrames); protected: idAnimator animator; damageEffect_t * damageEffects; private: void Event_GetJointHandle( const char *jointname ); void Event_ClearAllJoints( void ); void Event_ClearJoint( jointHandle_t jointnum ); void Event_SetJointPos( jointHandle_t jointnum, jointModTransform_t transform_type, const idVec3 &pos ); void Event_SetJointAngle( jointHandle_t jointnum, jointModTransform_t transform_type, const idAngles &angles ); void Event_GetJointPos( jointHandle_t jointnum ); void Event_GetJointAngle( jointHandle_t jointnum ); }; #ifdef _D3XP class SetTimeState { bool activated; bool previousFast; bool fast; public: SetTimeState(); SetTimeState( int timeGroup ); ~SetTimeState(); void PushState( int timeGroup ); }; ID_INLINE SetTimeState::SetTimeState() { activated = false; } ID_INLINE SetTimeState::SetTimeState( int timeGroup ) { activated = false; PushState( timeGroup ); } ID_INLINE void SetTimeState::PushState( int timeGroup ) { // Don't mess with time in Multiplayer if ( !gameLocal.isMultiplayer ) { activated = true; // determine previous fast setting if ( gameLocal.time == gameLocal.slow.time ) { previousFast = false; } else { previousFast = true; } // determine new fast setting if ( timeGroup ) { fast = true; } else { fast = false; } // set correct time if ( fast ) { gameLocal.fast.Get( gameLocal.time, gameLocal.previousTime, gameLocal.msec, gameLocal.framenum, gameLocal.realClientTime ); } else { gameLocal.slow.Get( gameLocal.time, gameLocal.previousTime, gameLocal.msec, gameLocal.framenum, gameLocal.realClientTime ); } } } ID_INLINE SetTimeState::~SetTimeState() { if ( activated && !gameLocal.isMultiplayer ) { // set previous correct time if ( previousFast ) { gameLocal.fast.Get( gameLocal.time, gameLocal.previousTime, gameLocal.msec, gameLocal.framenum, gameLocal.realClientTime ); } else { gameLocal.slow.Get( gameLocal.time, gameLocal.previousTime, gameLocal.msec, gameLocal.framenum, gameLocal.realClientTime ); } } } #endif #endif /* !__GAME_ENTITY_H__ */