281 lines
11 KiB
C
281 lines
11 KiB
C
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//========= Copyright <20> 1996-2005, Valve Corporation, All rights reserved. ============//
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//
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// Purpose:
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//
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//=============================================================================//
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#ifndef AI_TRACKPATHER_H
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#define AI_TRACKPATHER_H
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#if defined( _WIN32 )
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#pragma once
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#endif
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#include "ai_basenpc.h"
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class CPathTrack;
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//------------------------------------------------------------------------------
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class CAI_TrackPather : public CAI_BaseNPC
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{
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DECLARE_CLASS( CAI_TrackPather, CAI_BaseNPC );
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DECLARE_DATADESC();
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friend class CNPC_CombineAdvisorRoaming;
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public:
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bool IsOnPathTrack() { return (m_pCurrentPathTarget != NULL); }
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protected:
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void InitPathingData( float flTrackArrivalTolerance, float flTargetDistance, float flAvoidDistance );
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virtual bool GetTrackPatherTarget( Vector *pPos ) { return false; }
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virtual CBaseEntity *GetTrackPatherTargetEnt() { return NULL; }
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const Vector & GetDesiredPosition() const { return m_vecDesiredPosition; }
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void SetDesiredPosition( const Vector &v ) { m_vecDesiredPosition = v; }
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const Vector & GetGoalOrientation() const { return m_vecGoalOrientation; }
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void SetGoalOrientation( const Vector &v ) { m_vecGoalOrientation = v; }
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bool CurPathTargetIsDest() { return ( m_pDestPathTarget == m_pCurrentPathTarget ); }
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virtual bool HasReachedTarget( void ) { return (WorldSpaceCenter() - m_vecDesiredPosition).Length() < 128; }
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CPathTrack * GetDestPathTarget() { return m_pDestPathTarget; }
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bool IsInForcedMove() const { return m_bForcedMove; }
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void ClearForcedMove() { m_bForcedMove = false; }
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float GetPathMaxSpeed() const { return m_flPathMaxSpeed; }
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void OnSave( IEntitySaveUtils *pUtils );
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void OnRestore( void );
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protected:
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enum PauseState_t
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{
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PAUSE_NO_PAUSE = 0,
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PAUSED_AT_POSITION,
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PAUSE_AT_NEXT_LOS_POSITION,
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PAUSE_FORCE_DWORD = 0xFFFFFFFF,
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};
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// Sets a track
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void SetTrack( string_t strTrackName );
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void SetTrack( CBaseEntity *pGoalEnt );
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// Fly to a particular track point via the path
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virtual void InputFlyToPathTrack( inputdata_t &inputdata );
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// Updates the nav target if we've reached it
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void UpdateTrackNavigation( void );
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// Computes distance + nearest point from the current path..
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float ClosestPointToCurrentPath( Vector *pVecPoint ) const;
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// Computes a "path" velocity at a particular point along the current path
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void ComputePathTangent( float t, Vector *pVecTangent ) const;
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// Computes the *normalized* velocity at which the helicopter should approach the final point
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void ComputeNormalizedDestVelocity( Vector *pVecVelocity ) const;
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// Sets the farthest path distance
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void SetFarthestPathDist( float flMaxPathDist );
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// Returns the next/previous path along our current path
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CPathTrack *NextAlongCurrentPath( CPathTrack *pPath ) const;
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CPathTrack *PreviousAlongCurrentPath( CPathTrack *pPath ) const;
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// Adjusts a "next"most node based on the current movement direction
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CPathTrack *AdjustForMovementDirection( CPathTrack *pPath ) const;
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// Enemy visibility check
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virtual CBaseEntity *FindTrackBlocker( const Vector &vecViewPoint, const Vector &vecTargetPos );
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// Compute a point n units along a path
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void ComputePointAlongPath( const Vector &vecStartPoint, float flDistance, Vector *pTarget );
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// Are we leading?
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bool IsLeading() const { return m_bLeading && !m_bForcedMove; }
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// Leading + leading distance
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void EnableLeading( bool bEnable );
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void SetLeadingDistance( float flLeadDistance );
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float GetLeadingDistance( ) const;
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// Compute a point n units along the current path from our current position
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// (but don't pass the desired target point)
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void ComputePointAlongCurrentPath( float flDistance, float flPerpDist, Vector *pTarget );
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// Returns the perpendicular distance of the target from the nearest path point
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float TargetDistanceToPath() const { return m_flTargetDistFromPath; }
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// Returns the speed of the target relative to the path
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float TargetSpeedAlongPath() const;
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// Returns the speed of the target *across* the path
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float TargetSpeedAcrossPath() const;
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// Compute a path direction
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void ComputePathDirection( CPathTrack *pPath, Vector *pVecPathDir );
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// What's the current path direction?
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void CurrentPathDirection( Vector *pVecPathDir );
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// Returns the max distance we can be from the path
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float MaxDistanceFromCurrentPath() const;
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// true to use farthest, false for nearest
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void UseFarthestPathPoint( bool useFarthest );
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// Moves to an explicit track point
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void MoveToTrackPoint( CPathTrack *pTrack );
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// Sets up a new current path target
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void SetupNewCurrentTarget( CPathTrack *pTrack );
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virtual void OnNewCurrentTarget( CPathTrack *pTrackNew, CPathTrack *pTrackOld ) {}
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// Compute the distance to the leading position
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float ComputeDistanceToLeadingPosition();
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// Compute the distance to the target position
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float ComputeDistanceToTargetPosition();
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// Set the pause state.
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void SetPauseState( PauseState_t pauseState ) { m_nPauseState = pauseState; }
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// Does this path track have LOS to the target?
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bool HasLOSToTarget( CPathTrack *pTrack );
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// FIXME: Work this back into the base class
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virtual bool ShouldUseFixedPatrolLogic() { return false; }
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virtual bool ShouldUseAvoidanceWhenTracking() { return false; }
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// Deal with teleportation
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void Teleported();
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private:
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CPathTrack *BestPointOnPath( CPathTrack *pPath, const Vector &targetPos, float avoidRadius, bool visible, bool bFarthestPointOnPath );
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// Input methods
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void InputSetTrack( inputdata_t &inputdata );
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void InputChooseFarthestPathPoint( inputdata_t &inputdata );
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void InputChooseNearestPathPoint( inputdata_t &inputdata );
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void InputStartBreakableMovement( inputdata_t &inputdata );
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void InputStopBreakableMovement( inputdata_t &inputdata );
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void InputStartPatrol( inputdata_t &inputdata );
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void InputStopPatrol( inputdata_t &inputdata );
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void InputStartLeading( inputdata_t &inputdata );
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void InputStopLeading( inputdata_t &inputdata );
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// Obsolete, for backward compatibility
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void InputStartPatrolBreakable( inputdata_t &inputdata );
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// Flies to a point on a track
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void FlyToPathTrack( string_t strTrackName );
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// Selects a new destination target
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void SelectNewDestTarget();
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// Makes sure we've picked the right position along the path if we're chasing an enemy
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void UpdateTargetPosition( );
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// Moves to the track
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void UpdateCurrentTarget();
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void UpdateCurrentTargetLeading();
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// Track debugging info
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void VisualizeDebugInfo( const Vector &vecNearestPoint, const Vector &vecTarget );
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// Moves to the closest track point
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void MoveToClosestTrackPoint( CPathTrack *pTrack );
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// Are the two path tracks connected?
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bool IsOnSameTrack( CPathTrack *pPath1, CPathTrack *pPath2 ) const;
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// Is pPathTest in "front" of pPath on the same path? (Namely, does GetNext() get us there?)
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bool IsForwardAlongPath( CPathTrack *pPath, CPathTrack *pPathTest ) const;
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// Purpose:
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void UpdateTargetPositionLeading( void );
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// Compute a point n units along a path
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CPathTrack *ComputeLeadingPointAlongPath( const Vector &vecStartPoint, CPathTrack *pFirstTrack, float flDistance, Vector *pTarget );
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// Finds the closest point on the path, returns a signed perpendicular distance
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CPathTrack *FindClosestPointOnPath( CPathTrack *pPath, const Vector &targetPos, Vector *pVecClosestPoint, Vector *pVecPathDir, float *pDistanceFromPath );
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// Methods to find a signed perp distance from the track
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// and to compute a point off the path based on the signed perp distance
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float ComputePerpDistanceFromPath( const Vector &vecPointOnPath, const Vector &vecPathDir, const Vector &vecPointOffPath );
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void ComputePointFromPerpDistance( const Vector &vecPointOnPath, const Vector &vecPathDir, float flPerpDist, Vector *pResult );
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// Returns the direction of the path at the closest point to the target
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const Vector &TargetPathDirection() const;
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const Vector &TargetPathAcrossDirection() const;
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// Returns distance along path to target, returns -1 if there's no path
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float ComputePathDistance( CPathTrack *pStart, CPathTrack *pDest, bool bForward ) const;
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// Compute the distance to a particular point on the path
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float ComputeDistanceAlongPathToPoint( CPathTrack *pStartTrack, CPathTrack *pDestTrack, const Vector &vecDestPosition, bool bMovingForward );
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private:
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//---------------------------------
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Vector m_vecDesiredPosition;
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Vector m_vecGoalOrientation; // orientation of the goal entity.
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// NOTE: CurrentPathTarget changes meaning based on movement direction
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// For this *after* means the "next" (m_pnext) side of the line segment
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// and "before" means the "prev" (m_pprevious) side of the line segment
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// CurrentPathTarget is *after* the desired point when moving forward,
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// and *before* the desired point when moving backward.
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// DestPathTarget + TargetNearestPath always represent points
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// *after* the desired point.
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CHandle<CPathTrack> m_pCurrentPathTarget;
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CHandle<CPathTrack> m_pDestPathTarget;
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CHandle<CPathTrack> m_pLastPathTarget;
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CHandle<CPathTrack> m_pTargetNearestPath; // Used only by leading, it specifies the path point *after* where the target is
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string_t m_strCurrentPathName;
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string_t m_strDestPathName;
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string_t m_strLastPathName;
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string_t m_strTargetNearestPathName;
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Vector m_vecLastGoalCheckPosition; // Last position checked for moving towards
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float m_flEnemyPathUpdateTime; // Next time to update our enemies position
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bool m_bForcedMove; // Means the destination point must be reached regardless of enemy position
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bool m_bPatrolling; // If set, move back and forth along the current track until we see an enemy
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bool m_bPatrolBreakable; // If set, I'll stop patrolling if I see an enemy
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bool m_bLeading; // If set, we can lead our enemies
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// Derived class pathing data
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float m_flTargetDistanceThreshold;// Distance threshold used to determine when a target has moved enough to update our navigation to it
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float m_flAvoidDistance; //
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float m_flTargetTolerance; // How far from a path track do we need to be before we 'reached' it?
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Vector m_vecSegmentStartPoint; // Starting point for the current segment
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Vector m_vecSegmentStartSplinePoint; // Used to define a spline which is used to compute path velocity
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bool m_bMovingForward;
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bool m_bChooseFarthestPoint;
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float m_flFarthestPathDist; // How far from a path track do we need to be before we 'reached' it?
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float m_flPathMaxSpeed;
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float m_flTargetDistFromPath; // How far is the target from the closest point on the path?
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float m_flLeadDistance;
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Vector m_vecTargetPathDir;
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Vector m_vecTargetPathPoint; // What point on the path is closest to the target?
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PauseState_t m_nPauseState;
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};
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//------------------------------------------------------------------------------
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#endif // AI_TRACKPATHER_H
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