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#ifndef _SURVIVE_H
#define _SURVIVE_H

#include <stdint.h>

#ifndef FLT
#ifdef USE_DOUBLE
#define FLT double
#else
#define FLT float
#endif
#endif

struct SurviveContext;

//DANGER: This structure may be redefined.  Note that it is logically split into 64-bit chunks
//for optimization on 32- and 64-bit systems.

//Careful with this, you can't just add another one right now, would take minor changes in survive_data.c and the cal tools.
//It will also require a recompile.  TODO: revisit this and correct the comment once fixed.
#define NUM_LIGHTHOUSES 2  

struct SurviveObject
{
	struct SurviveContext * ctx;

	char    codename[4];  //3 letters, null-terminated.  Currently HMD, WM0, WM1.
	int16_t buttonmask;
	int16_t axis1;

	int16_t axis2;
	int16_t axis3;
	int8_t  charge;
	int8_t  charging:1;
	int8_t  ison:1;
	int8_t  additional_flags:6;

	FLT * sensor_locations;
	FLT * sensor_normals;
	int8_t nr_locations;

	//Timing sensitive data (mostly for disambiguation)
	int32_t timebase_hz;		//48,000,000 for normal vive hardware.  (checked)
	int32_t timecenter_ticks; 	//200,000 for normal vive hardware.     (checked)
	int32_t pulsedist_max_ticks; //500,000 for normal vive hardware.   (guessed)
	int32_t pulselength_min_sync; //2,200 for normal vive hardware.    (guessed)
	int32_t pulse_in_clear_time; //35,000 for normal vive hardware.    (guessed)
	int32_t pulse_max_for_sweep; //1,800 for normal vive hardware.     (guessed)
	int32_t pulse_synctime_offset; //20,000 for normal vive hardware.  (guessed)
	int32_t pulse_synctime_slack; //5,000 for normal vive hardware.    (guessed)

	//Flood info, for calculating which laser is currently sweeping.
	int8_t oldcode;
	int8_t   sync_set_number; //0 = master, 1 = slave, -1 = fault. 
	int8_t   did_handle_ootx; //If unset, will send lightcap data for sync pulses next time a sensor is hit.
	uint32_t last_time[NUM_LIGHTHOUSES];
	uint32_t last_length[NUM_LIGHTHOUSES];
	uint32_t recent_sync_time;

	uint32_t last_lighttime;  //May be a 24- or 32- bit number depending on what device.

	//Debug
	int tsl;
};

typedef void (*text_feedback_func)( struct SurviveContext * ctx, const char * fault );
typedef void (*light_process_func)( struct SurviveObject * so, int sensor_id, int acode, int timeinsweep, uint32_t timecode, uint32_t length );
typedef void (*imu_process_func)( struct SurviveObject * so, int16_t * accelgyro, uint32_t timecode, int id );
typedef void (*angle_process_func)( struct SurviveObject * so, int sensor_id, int acode, uint32_t timecode, FLT length, FLT angle );

struct SurviveContext * survive_init();

//For any of these, you may pass in 0 for the function pointer to use default behavior.
void survive_install_info_fn( struct SurviveContext * ctx,  text_feedback_func fbp );
void survive_install_error_fn( struct SurviveContext * ctx,  text_feedback_func fbp );
void survive_install_light_fn( struct SurviveContext * ctx,  light_process_func fbp );
void survive_install_imu_fn( struct SurviveContext * ctx,  imu_process_func fbp );
void survive_install_angle_fn( struct SurviveContext * ctx,  angle_process_func fbp );

void survive_close( struct SurviveContext * ctx );
int survive_poll();

struct SurviveObject * survive_get_so_by_name( struct SurviveContext * ctx, const char * name );

//Utilitiy functions.
int survive_simple_inflate( struct SurviveContext * ctx, const char * input, int inlen, char * output, int outlen );

//TODO: Need to make this do haptic responses for hands. 
int survive_usb_send_magic( struct SurviveContext * ctx, int on );

//Install the calibrator.
void survive_cal_install( struct SurviveContext * ctx );

//Call these from your callback if overridden.  
//Accept higher-level data.
void survive_default_light_process( struct SurviveObject * so, int sensor_id, int acode, int timeinsweep, uint32_t timecode, uint32_t length );
void survive_default_imu_process( struct SurviveObject * so, int16_t * accelgyro, uint32_t timecode, int id );
void survive_default_angle_process( struct SurviveObject * so, int sensor_id, int acode, uint32_t timecode, FLT length, FLT angle );


#endif