#ifndef _XPLMCamera_h_
#define _XPLMCamera_h_

/*
 * Copyright 2005-2012 Sandy Barbour and Ben Supnik
 * 
 * All rights reserved.  See license.txt for usage.
 * 
 * X-Plane SDK Version: 2.1.1                                                  
 *
 */

/*
 * XPLMCamera - THEORY OF OPERATION The XPLMCamera APIs allow plug-ins to 
 * control the camera angle in X-Plane.  This has a number of applications, 
 * including but not limited to: 
 * 
 * - Creating new views (including dynamic/user-controllable views) for the 
 * user. 
 * 
 * - Creating applications that use X-Plane as a renderer of scenery, 
 * aircrafts, or both. 
 * 
 * The camera is controlled via six parameters: a location in OpenGL 
 * coordinates and pitch, roll and yaw, similar to an airplane's position.  
 * OpenGL coordinate info is described in detail in the XPLMGraphics 
 * documentation; generally you should use the XPLMGraphics routines to 
 * convert from world to local coordinates.  The camera's orientation starts 
 * facing level with the ground directly up the negative-Z axis  
 * (approximately north) with the horizon horizontal.  It is then rotated 
 * clockwise for yaw, pitched up for positive pitch, and rolled clockwise 
 * around the vector it is looking along for roll. 
 * 
 * You control the camera either either until the user selects a new view or  
 * permanently (the later being similar to how UDP camera control works).  You 
 * control the camera by registering a callback per frame from which you 
 * calculate the new camera positions.  This guarantees smooth camera motion. 
 * 
 * Use the XPLMDataAccess APIs to get information like the position of the 
 * aircraft, etc. for complex camera positioning.                              
 *
 */

#include "XPLMDefs.h"

#ifdef __cplusplus
extern "C" {
#endif

/***************************************************************************
 * CAMERA CONTROL
 ***************************************************************************/
/*
 *                                                                             
 *
 */


/*
 * XPLMCameraControlDuration
 * 
 * This enumeration states how long you want to retain control of the camera. 
 * You can retain it indefinitely or until the user selects a new view.        
 *
 */
enum {
     /* Control the camera until the user picks a new view.                         */
     xplm_ControlCameraUntilViewChanges       = 1

     /* Control the camera until your plugin is disabled or another plugin forcably *
      * takes control.                                                              */
    ,xplm_ControlCameraForever                = 2


};
typedef int XPLMCameraControlDuration;

/*
 * XPLMCameraPosition_t
 * 
 * This structure contains a full specification of the camera.  X, Y, and Z 
 * are the camera's position in OpenGL coordiantes; pitch, roll, and yaw are 
 * rotations from a camera facing flat north in degrees.  Positive pitch means 
 * nose up, positive roll means roll right, and positive yaw means yaw right, 
 * all in degrees. Zoom is a zoom factor, with 1.0 meaning normal zoom and 2.0 
 * magnifying by 2x (objects appear larger).                                   
 *
 */
typedef struct {
     float                     x;
     float                     y;
     float                     z;
     float                     pitch;
     float                     heading;
     float                     roll;
     float                     zoom;
} XPLMCameraPosition_t;

/*
 * XPLMCameraControl_f
 * 
 * You use an XPLMCameraControl function to provide continuous control over 
 * the camera.  You are passed in a structure in which to put the new camera 
 * position; modify it and return 1 to reposition the camera.  Return 0 to 
 * surrender control of the camera; camera control will be handled by X-Plane 
 * on this draw loop. The contents of the structure as you are called are 
 * undefined. 
 * 
 * If X-Plane is taking camera control away from you, this function will be 
 * called with inIsLosingControl set to 1 and ioCameraPosition NULL.           
 *
 */
typedef int (* XPLMCameraControl_f)(
                                   XPLMCameraPosition_t * outCameraPosition,    /* Can be NULL */
                                   int                  inIsLosingControl,    
                                   void *               inRefcon);    

/*
 * XPLMControlCamera
 * 
 * This function repositions the camera on the next drawing cycle.  You must 
 * pass a non-null control function.  Specify in inHowLong how long you'd like 
 * control  (indefinitely or until a key is pressed).                          
 *
 */
XPLM_API void                 XPLMControlCamera(
                                   XPLMCameraControlDuration inHowLong,    
                                   XPLMCameraControl_f  inControlFunc,    
                                   void *               inRefcon);    

/*
 * XPLMDontControlCamera
 * 
 * This function stops you from controlling the camera.  If you have a camera 
 * control function, it will not be called with an inIsLosingControl flag.   
 * X-Plane will control the camera on the next cycle. 
 * 
 * For maximum compatibility you should not use this routine unless you are in 
 * posession of the camera.                                                    
 *
 */
XPLM_API void                 XPLMDontControlCamera(void);

/*
 * XPLMIsCameraBeingControlled
 * 
 * This routine returns 1 if the camera is being controlled, zero if it is 
 * not.  If it is and you pass in a pointer to a camera control duration, the 
 * current control duration will be returned.                                  
 *
 */
XPLM_API int                  XPLMIsCameraBeingControlled(
                                   XPLMCameraControlDuration * outCameraControlDuration);    /* Can be NULL */

/*
 * XPLMReadCameraPosition
 * 
 * This function reads the current camera position.                            
 *
 */
XPLM_API void                 XPLMReadCameraPosition(
                                   XPLMCameraPosition_t * outCameraPosition);    

#ifdef __cplusplus
}
#endif

#endif