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202 lines
6.7 KiB
202 lines
6.7 KiB
// NextBotVisionInterface.h
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// Visual information query interface for bots
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// Author: Michael Booth, April 2005
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// Copyright (c) 2005 Turtle Rock Studios, Inc. - All Rights Reserved
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#ifndef _NEXT_BOT_VISION_INTERFACE_H_
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#define _NEXT_BOT_VISION_INTERFACE_H_
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#include "NextBotComponentInterface.h"
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#include "NextBotKnownEntity.h"
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class IBody;
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class INextBotEntityFilter;
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//----------------------------------------------------------------------------------------------------------------
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/**
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* The interface for HOW the bot sees (near sighted? night vision? etc)
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*/
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class IVision : public INextBotComponent
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{
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public:
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IVision( INextBot *bot );
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virtual ~IVision() { }
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virtual void Reset( void ); // reset to initial state
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virtual void Update( void ); // update internal state
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//-- attention/short term memory interface follows ------------------------------------------
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/**
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* Iterate each interesting entity we are aware of.
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* If functor returns false, stop iterating and return false.
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* NOTE: known.GetEntity() is guaranteed to be non-NULL
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*/
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class IForEachKnownEntity
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{
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public:
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virtual bool Inspect( const CKnownEntity &known ) = 0;
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};
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virtual bool ForEachKnownEntity( IForEachKnownEntity &func );
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virtual const CKnownEntity *GetPrimaryKnownThreat( bool onlyVisibleThreats = false ) const; // return the biggest threat to ourselves that we are aware of
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virtual float GetTimeSinceVisible( int team ) const; // return time since we saw any member of the given team
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virtual const CKnownEntity *GetClosestKnown( int team = TEAM_ANY ) const; // return the closest known entity
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virtual int GetKnownCount( int team, bool onlyVisible = false, float rangeLimit = -1.0f ) const; // return the number of entities on the given team known to us closer than rangeLimit
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virtual const CKnownEntity *GetClosestKnown( const INextBotEntityFilter &filter ) const; // return the closest known entity that passes the given filter
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virtual const CKnownEntity *GetKnown( const CBaseEntity *entity ) const; // given an entity, return our known version of it (or NULL if we don't know of it)
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// Introduce a known entity into the system. Its position is assumed to be known
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// and will be updated, and it is assumed to not yet have been seen by us, allowing for learning
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// of known entities by being told about them, hearing them, etc.
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virtual void AddKnownEntity( CBaseEntity *entity );
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//-- physical vision interface follows ------------------------------------------------------
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/**
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* Populate "potentiallyVisible" with the set of all entities we could potentially see.
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* Entities in this set will be tested for visibility/recognition in IVision::Update()
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*/
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virtual void CollectPotentiallyVisibleEntities( CUtlVector< CBaseEntity * > *potentiallyVisible );
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virtual float GetMaxVisionRange( void ) const; // return maximum distance vision can reach
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virtual float GetMinRecognizeTime( void ) const; // return VISUAL reaction time
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/**
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* IsAbleToSee() returns true if the viewer can ACTUALLY SEE the subject or position,
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* taking into account blindness, smoke effects, invisibility, etc.
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* If 'visibleSpot' is non-NULL, the highest priority spot on the subject that is visible is returned.
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*/
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enum FieldOfViewCheckType { USE_FOV, DISREGARD_FOV };
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virtual bool IsAbleToSee( CBaseEntity *subject, FieldOfViewCheckType checkFOV, Vector *visibleSpot = NULL ) const;
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virtual bool IsAbleToSee( const Vector &pos, FieldOfViewCheckType checkFOV ) const;
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virtual bool IsNoticed( CBaseEntity *subject ) const; // return true if we 'notice' the subject, even if we have clear LOS
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virtual bool IsIgnored( CBaseEntity *subject ) const; // return true to completely ignore this entity
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/**
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* Check if 'subject' is within the viewer's field of view
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*/
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virtual bool IsInFieldOfView( const Vector &pos ) const;
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virtual bool IsInFieldOfView( CBaseEntity *subject ) const;
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virtual float GetDefaultFieldOfView( void ) const; // return default FOV in degrees
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virtual float GetFieldOfView( void ) const; // return FOV in degrees
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virtual void SetFieldOfView( float horizAngle ); // angle given in degrees
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virtual bool IsLineOfSightClear( const Vector &pos ) const; // return true if the ray to the given point is unobstructed
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/**
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* Returns true if the ray between the position and the subject is unobstructed.
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* A visible spot on the subject is returned in 'visibleSpot'.
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*/
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virtual bool IsLineOfSightClearToEntity( const CBaseEntity *subject, Vector *visibleSpot = NULL ) const;
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/// @todo: Implement LookAt system
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virtual bool IsLookingAt( const Vector &pos, float cosTolerance = 0.95f ) const; // are we looking at the given position
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virtual bool IsLookingAt( const CBaseCombatCharacter *actor, float cosTolerance = 0.95f ) const; // are we looking at the given actor
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private:
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CountdownTimer m_scanTimer; // for throttling update rate
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float m_FOV; // current FOV in degrees
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float m_cosHalfFOV; // the cosine of FOV/2
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CUtlVector< CKnownEntity > m_knownEntityVector; // the set of enemies/friends we are aware of
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void UpdateKnownEntities( void );
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bool IsAwareOf( const CKnownEntity &known ) const; // return true if our reaction time has passed for this entity
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float m_lastVisionUpdateTimestamp;
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IntervalTimer m_notVisibleTimer[ MAX_TEAMS ]; // for tracking interval since last saw a member of the given team
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};
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inline float IVision::GetDefaultFieldOfView( void ) const
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{
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return 90.0f;
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}
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inline float IVision::GetFieldOfView( void ) const
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{
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return m_FOV;
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}
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inline float IVision::GetTimeSinceVisible( int team ) const
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{
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if ( team == TEAM_ANY )
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{
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// return minimum time
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float time = 9999999999.9f;
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for( int i=0; i<MAX_TEAMS; ++i )
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{
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if ( m_notVisibleTimer[i].HasStarted() )
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{
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if ( time > m_notVisibleTimer[i].GetElapsedTime() )
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{
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team = m_notVisibleTimer[i].GetElapsedTime();
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}
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}
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}
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return time;
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}
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if ( team >= 0 && team < MAX_TEAMS )
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{
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return m_notVisibleTimer[ team ].GetElapsedTime();
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}
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return 0.0f;
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}
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inline bool IVision::IsAwareOf( const CKnownEntity &known ) const
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{
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return known.GetTimeSinceBecameKnown() >= GetMinRecognizeTime();
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}
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inline bool IVision::ForEachKnownEntity( IVision::IForEachKnownEntity &func )
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{
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for( int i=0; i<m_knownEntityVector.Count(); ++i )
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{
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const CKnownEntity &known = m_knownEntityVector[i];
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if ( !known.IsObsolete() && IsAwareOf( known ) )
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{
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if ( func.Inspect( known ) == false )
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{
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return false;
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}
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}
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}
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return true;
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}
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inline bool IVision::IsNoticed( CBaseEntity *subject ) const
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{
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return true;
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}
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inline bool IVision::IsIgnored( CBaseEntity *subject ) const
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{
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return false;
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}
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inline float IVision::GetMaxVisionRange( void ) const
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{
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return 2000.0f;
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}
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inline float IVision::GetMinRecognizeTime( void ) const
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{
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return 0.0f;
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}
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#endif // _NEXT_BOT_VISION_INTERFACE_H_
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