mirror of
https://github.com/UberGames/EF2GameSource.git
synced 2024-11-10 06:31:42 +00:00
535 lines
14 KiB
C++
535 lines
14 KiB
C++
//-----------------------------------------------------------------------------
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//
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// $Logfile:: /Code/DLLs/game/camera.h $
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// $Revision:: 19 $
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// $Author:: Steven $
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// $Date:: 10/13/03 8:53a $
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//
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// Copyright (C) 1997 by Ritual Entertainment, Inc.
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// All rights reserved.
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//
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// This source is may not be distributed and/or modified without
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// expressly written permission by Ritual Entertainment, Inc.
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//
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//
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// DESCRIPTION:
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// Camera. Duh.
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//
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#ifndef __CAMERA_H__
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#define __CAMERA_H__
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#include "g_local.h"
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#include "entity.h"
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#include "bspline.h"
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#include "container.h"
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#include "CameraPath.h"
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#define CAMERA_SWITCHTIME 0.5f
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#define ORBIT ( 1 << 0 )
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#define START_ON ( 1 << 1 )
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#define AUTOMATIC ( 1 << 2 )
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#define NO_TRACE ( 1 << 3 )
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#define NO_WATCH ( 1 << 4 )
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#define LEVEL_EXIT ( 1 << 5 )
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// CameraManager Events
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extern Event EV_CameraManager_SetPath ;
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extern Event EV_CameraManager_PlayPath ;
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extern Event EV_CameraManager_Load ;
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// Camera Events
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extern Event EV_Camera_CameraThink;
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extern Event EV_Camera_StartMoving;
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extern Event EV_Camera_Pause;
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extern Event EV_Camera_Continue;
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extern Event EV_Camera_StopMoving;
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extern Event EV_Camera_SetSpeed;
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extern Event EV_Camera_SetFollowDistance;
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extern Event EV_Camera_SetOrbitHeight;
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extern Event EV_Camera_SetYaw;
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extern Event EV_Camera_AbsoluteYaw;
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extern Event EV_Camera_RelativeYaw;
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extern Event EV_Camera_SetFOV;
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extern Event SetInterpolateFOV;
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extern Event EV_Camera_Orbit;
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extern Event EV_Camera_Follow;
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extern Event EV_Camera_Watch;
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extern Event EV_Camera_WatchPath;
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extern Event EV_Camera_LookAt;
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extern Event EV_Camera_TurnTo;
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extern Event EV_Camera_MoveToEntity;
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extern Event EV_Camera_MoveToPos;
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extern Event EV_Camera_NoWatch;
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extern Event EV_Camera_FadeTime;
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extern Event EV_Camera_Cut;
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extern Event EV_Camera_LoadKFC;
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class Camera;
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//---------------------------------------------------------------------------
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// class CameraMoveState
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//---------------------------------------------------------------------------
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class CameraMoveState : public Class
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{
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public:
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Vector pos;
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Vector movedir; // direction of travel
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Vector angles; // angles from spline camera
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BSpline cameraPath;
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SplinePathPtr splinePath;
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SplinePathPtr currentNode;
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SplinePathPtr loopNode;
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float cameraTime;
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int lastTime;
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int newTime;
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qboolean followingpath;
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EntityPtr followEnt;
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EntityPtr orbitEnt;
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void operator=( const CameraMoveState& newstate );
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void Evaluate( Camera* camera );
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void Initialize( Camera* camera );
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void DoNodeEvents( Camera* camera );
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virtual void Archive( Archiver& arc );
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};
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//---------------------------------------------------------------------------
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// CameraMoveState::operator=
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//---------------------------------------------------------------------------
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inline void CameraMoveState::operator=( const CameraMoveState& newstate )
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{
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movedir = newstate.movedir;
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pos = newstate.pos;
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angles = newstate.angles;
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cameraPath = newstate.cameraPath;
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splinePath = newstate.splinePath;
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currentNode = newstate.currentNode;
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loopNode = newstate.loopNode;
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cameraTime = newstate.cameraTime;
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lastTime = newstate.lastTime;
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newTime = newstate.newTime;
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followEnt = newstate.followEnt;
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orbitEnt = newstate.orbitEnt;
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followingpath = newstate.followingpath;
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}
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//---------------------------------------------------------------------------
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// CameraMoveState::Archive
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//---------------------------------------------------------------------------
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inline void CameraMoveState::Archive( Archiver& arc )
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{
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Class::Archive( arc );
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arc.ArchiveVector( &pos );
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arc.ArchiveVector( &movedir );
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arc.ArchiveVector( &angles );
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cameraPath.Archive( arc );
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arc.ArchiveSafePointer( &splinePath );
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arc.ArchiveSafePointer( ¤tNode );
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arc.ArchiveSafePointer( &loopNode );
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arc.ArchiveFloat( &cameraTime );
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arc.ArchiveInteger( &lastTime );
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arc.ArchiveInteger( &newTime );
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arc.ArchiveBoolean( &followingpath );
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arc.ArchiveSafePointer( &followEnt );
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arc.ArchiveSafePointer( &orbitEnt );
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}
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//---------------------------------------------------------------------------
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// class CameraWatchState
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//---------------------------------------------------------------------------
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class CameraWatchState : public Class
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{
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public:
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Vector watchAngles;
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EntityPtr watchEnt;
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qboolean watchNodes;
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qboolean watchPath;
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void Evaluate( const Camera* camera, const CameraMoveState* move );
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void Initialize( Camera* camera );
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virtual void Archive( Archiver& arc );
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};
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//---------------------------------------------------------------------------
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// CameraWatchState::Archive
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//---------------------------------------------------------------------------
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inline void CameraWatchState::Archive( Archiver& arc )
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{
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Class::Archive( arc );
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arc.ArchiveVector( &watchAngles );
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arc.ArchiveSafePointer( &watchEnt );
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arc.ArchiveBoolean( &watchNodes );
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arc.ArchiveBoolean( &watchPath );
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}
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//---------------------------------------------------------------------------
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// class CameraState
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//---------------------------------------------------------------------------
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class CameraState : public Class
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{
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public:
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CameraMoveState move;
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CameraWatchState watch;
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float fov;
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void Evaluate( Camera * camera );
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void Initialize( Camera * camera );
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virtual void Archive( Archiver &arc );
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};
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//---------------------------------------------------------------------------
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// CameraState::Archive
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//---------------------------------------------------------------------------
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inline void CameraState::Archive( Archiver& arc )
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{
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Class::Archive( arc );
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move.Archive( arc );
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watch.Archive( arc );
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arc.ArchiveFloat( &fov );
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}
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//---------------------------------------------------------------------------
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// class Camera
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//---------------------------------------------------------------------------
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class Camera : public Entity
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{
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private:
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friend class CameraState;
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friend class CameraWatchState;
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friend class CameraMoveState;
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//
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// follow parameters
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//
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float follow_yaw;
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qboolean follow_yaw_fixed;
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float follow_dist;
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int follow_mask;
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// camera speed
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float camera_speed;
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// current camera fov
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float camera_fov;
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// orbit height
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float orbit_height;
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// orbit_dotrace
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qboolean orbit_dotrace;
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// whether or not auto calculate fov, a non-zero value means yes
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float auto_fov;
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// automatic variables
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float automatic_startTime;
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float automatic_stopTime;
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float automatic_radius;
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float automatic_maxFOV;
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qboolean automatic_active;
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Container<str> automatic_states;
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// members supporting new key-framed camera system
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CameraPath* newCameraPath; // NULL if not currently in use (fall back to old system)
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float newCameraPathSeconds; // the number of seconds the camera is into its key-framed path
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protected:
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CameraState currentstate;
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CameraState newstate;
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float watchTime; // if non-zero, camera view is transitioning
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float followTime; // if non-zero, camera position is tranisitioning
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float fovTime; // if non-zero, fov is being lerped
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float fadeTime; // time to transition over
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float fovFadeTime; // time for fov transition
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float followFadeTime; // time for fov transition
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float watchFadeTime; // time for fov transition
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str nextCamera;
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str thread;
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qboolean showcamera;
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void SetupCamera( Event* ev );
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void CameraThink( Event* ev );
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void EvaluateCameraKeyFramePath( void );
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void CreateOrbit( const Vector& pos, float radius, const Vector& forward, const Vector& left );
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void CreatePath( SplinePath* path, splinetype_t type );
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void UpdateStates( void );
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Vector CalculatePosition( void );
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Vector CalculateOrientation( void );
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float CalculateFov( void );
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virtual void bind( Entity* master, qboolean use_my_angles = false );
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virtual void unbind( void );
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public:
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CLASS_PROTOTYPE( Camera );
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Camera();
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void Stop( void );
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void FollowPath( SplinePath* path, qboolean loop, Entity* watch );
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void Orbit( Entity* ent, float dist, Entity* watch, float yaw_offset = 0, qboolean dotrace = true );
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void FollowEntity( Entity* ent, float dist, int mask, Entity* watch = NULL );
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void Watch( const str& watch, float time );
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void Watch( Entity* ent, float time );
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void SetFOV( float fov, float time );
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void StartMoving( Event* ev );
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void StopMoving( Event* ev );
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void Pause( Event* ev );
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void Continue( Event* ev );
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void SetAnglesEvent( Event* ev );
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void SetSpeed( Event* ev );
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void SetFollowDistance( Event* ev );
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void SetOrbitHeight( float height );
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void SetOrbitHeight( Event* ev );
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void SetFollowYaw( Event* ev );
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void AbsoluteYaw( Event* ev );
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void RelativeYaw( Event* ev );
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void SetFOV( Event* ev );
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void SetInterpolateFOV( Event* ev );
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void LoadKFC( Event* ev );
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void OrbitEvent( Event* ev );
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void FollowEvent( Event* ev );
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void WatchEvent( Event* ev );
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void WatchPathEvent( Event* ev );
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void WatchNodesEvent( Event* ev );
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void NoWatchEvent( Event* ev );
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void LookAt( Event* ev );
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void MoveToEntity( Event* ev );
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void MoveToPos( Event* ev );
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void Cut( Event* ev );
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void FadeTime( Event* ev );
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void TurnTo( Event* ev );
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void SetNextCamera( Event* ev );
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void SetThread( Event* ev );
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float CalculateScore( Entity* player, const str& state );
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float AutomaticStart( Entity* player );
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float AutomaticStop( Entity* player );
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qboolean IsAutomatic( void );
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qboolean IsLevelExit( void );
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void SetAutoStateEvent( Event* ev );
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void SetAutoRadiusEvent( Event* ev );
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void SetAutoStartTimeEvent( Event* ev );
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void SetAutoStopTimeEvent( Event* ev );
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void SetMaximumAutoFOVEvent( Event* ev );
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void SetAutoActiveEvent( Event* ev );
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str& NextCamera( void );
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str& Thread( void );
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float Fov( void );
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void SetPlaybackOffsets( const float yawOffsetDegrees, const Vector& originOffset );
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float GetPathLengthInSeconds( void );
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float GetCameraTime( void );
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void Reset( const Vector& org, const Vector& ang );
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virtual void Archive( Archiver& arc );
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};
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//---------------------------------------------------------------------------
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// Camera::Archive
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//---------------------------------------------------------------------------
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inline void Camera::Archive( Archiver& arc )
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{
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Entity::Archive( arc );
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arc.ArchiveFloat( &follow_yaw );
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arc.ArchiveBoolean( &follow_yaw_fixed );
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arc.ArchiveFloat( &follow_dist );
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arc.ArchiveInteger( &follow_mask );
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arc.ArchiveFloat( &camera_speed );
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arc.ArchiveFloat( &camera_fov );
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arc.ArchiveFloat( &orbit_height );
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arc.ArchiveBoolean( &orbit_dotrace );
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arc.ArchiveFloat( &auto_fov );
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arc.ArchiveFloat( &automatic_startTime );
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arc.ArchiveFloat( &automatic_stopTime );
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arc.ArchiveFloat( &automatic_radius );
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arc.ArchiveFloat( &automatic_maxFOV );
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arc.ArchiveBoolean( &automatic_active );
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automatic_states.Archive( arc );
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if ( arc.Saving() )
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{
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bool cameraValid;
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if ( newCameraPath )
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cameraValid = true;
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else
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cameraValid = false;
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arc.ArchiveBool( &cameraValid );
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if ( cameraValid )
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arc.ArchiveObject( newCameraPath );
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}
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else
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{
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bool cameraValid;
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arc.ArchiveBool( &cameraValid );
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if ( cameraValid )
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{
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newCameraPath = new CameraPath();
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arc.ArchiveObject( newCameraPath );
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}
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else
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{
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newCameraPath = NULL;
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}
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}
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arc.ArchiveFloat( &newCameraPathSeconds );
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// currentstate
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currentstate.Archive( arc );
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// newstate
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newstate.Archive( arc );
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arc.ArchiveFloat( &watchTime );
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arc.ArchiveFloat( &followTime );
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arc.ArchiveFloat( &fovTime );
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arc.ArchiveFloat( &fadeTime );
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arc.ArchiveFloat( &fovFadeTime );
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arc.ArchiveFloat( &followFadeTime );
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arc.ArchiveFloat( &watchFadeTime );
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arc.ArchiveString( &nextCamera );
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arc.ArchiveString( &thread );
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arc.ArchiveBoolean( &showcamera );
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if ( arc.Loading() )
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{
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if ( spawnflags & AUTOMATIC )
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{
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level.AddAutomaticCamera( this );
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}
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}
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}
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void SetCamera( Entity *ent, float switchTime );
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Entity * GetWatchEntity( const str &watch );
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typedef SafePtr<Camera> CameraPtr;
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//---------------------------------------------------------------------------
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// class CameraManager
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//---------------------------------------------------------------------------
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class CameraManager : public Listener
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{
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protected:
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Container<str> pathList;
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BSpline cameraPath;
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SplinePathPtr path;
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SplinePathPtr current;
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float speed;
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int watch;
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str pathName;
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CameraPtr cam;
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qboolean cameraPath_dirty;
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float playbackStartTime;
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qboolean isPreviewPlaybackRunning;
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void NewPath( Event* ev );
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void SetPath( Event* ev );
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void SetTargetName( Event* ev );
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void SetTarget( Event* ev );
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void SetThread( Event* ev );
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void AddPoint( Event* ev );
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void ReplacePoint( Event* ev );
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void DeletePoint( Event* ev );
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void MovePlayer( Event* ev );
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void NextPoint( Event* ev );
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void PreviousPoint( Event* ev );
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void ShowingPath( Event* ev );
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void ShowPath( Event* ev );
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void HidePath( Event* ev );
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void StopPlayback( Event* ev );
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void PlayPath( Event* ev );
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void PlayKFCPath( Event* ev );
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void DestroyKFCPath( Event* ev );
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void LoopPath( Event* ev );
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void Watch( Event* ev );
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void NoWatch( Event* ev );
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void Fov( Event* ev );
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void FadeTime( Event* ev );
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void Speed( Event* ev );
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void Save( Event* ev );
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void Load( Event* ev );
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void SaveMap( Event* ev );
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void UpdateEvent( Event* ev );
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void NextPath( Event* ev );
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void PreviousPath( Event* ev );
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void RenamePath( Event* ev );
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void ShowPath( void );
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void UpdateUI( void );
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void SetPathName( const str& name );
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void SavePath( const str& pathName );
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public:
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CLASS_PROTOTYPE( CameraManager );
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CameraManager();
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void SetPath( const str& pathName );
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virtual void Archive( Archiver& arc );
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};
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//---------------------------------------------------------------------------
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// CameraManager::Archive
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//---------------------------------------------------------------------------
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inline void CameraManager::Archive( Archiver& arc )
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{
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Listener::Archive( arc );
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pathList.Archive( arc );
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// Don't need to archive cameraPath because it gets rebuilt ayways
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//BSpline cameraPath;
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// no need to archive the cameraPath
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arc.ArchiveSafePointer( &path );
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arc.ArchiveSafePointer( ¤t );
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arc.ArchiveFloat( &speed );
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arc.ArchiveInteger( &watch );
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arc.ArchiveString( &pathName );
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arc.ArchiveSafePointer( &cam );
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// make sure the cameraPath gets rebuilt
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cameraPath_dirty = true;
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}
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extern CameraManager CameraMan;
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#endif /* camera.h */
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