mpv/vidix/vidix.h

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/*
* vidix.h
* VIDIX - VIDeo Interface for *niX
* This interface is introduced as universal one to MPEG decoder,
* BES == Back End Scaler and YUV2RGB hw accelerators.
* In the future it may be expanded up to capturing and audio things.
* Main goal of this this interface imlpementation is providing DGA
* everywhere where it's possible (unlike X11 and other).
* Copyright 2002 Nick Kurshev
* Licence: GPL
* This interface is based on v4l2, fbvid.h, mga_vid.h projects
* and personally my ideas.
* NOTE: This interface is introduces as driver interface.
* Don't use it for APP.
*/
#ifndef VIDIX_H
#define VIDIX_H
#ifdef __cplusplus
extern "C" {
#endif
#define VIDIX_VERSION 100
/* returns driver version */
extern unsigned vixGetVersion( void );
#define PROBE_NORMAL 0 /* normal probing */
#define PROBE_FORCE 1 /* ignore device_id but recognize device if it's known */
/* Probes video hw.
verbose - specifies verbose level.
force - specifies force mode - driver should ignore
device_id (danger but useful for new devices)
Returns 0 if ok else errno */
extern int vixProbe( int verbose, int force );
/* Initializes driver. Returns 0 if ok else errno */
extern int vixInit( void );
/* Destroys driver */
extern void vixDestroy( void );
typedef struct vidix_capability_s
{
char name[64]; /* Driver name */
char author[64]; /* Author name */
#define TYPE_OUTPUT 0x00000000 /* Is a video playback device */
#define TYPE_CAPTURE 0x00000001 /* Is a capture device */
#define TYPE_CODEC 0x00000002 /* Device supports hw (de)coding */
#define TYPE_FX 0x00000004 /* Is a video effects device */
int type; /* Device type, see below */
unsigned reserved0[4];
int maxwidth;
int maxheight;
int minwidth;
int minheight;
int maxframerate; /* -1 if unlimited */
#define FLAG_NONE 0x00000000 /* No flags defined */
#define FLAG_DMA 0x00000001 /* Card can use DMA */
#define FLAG_EQ_DMA 0x00000002 /* Card can use DMA only if src pitch == dest pitch */
#define FLAG_UPSCALER 0x00000010 /* Card supports hw upscaling */
#define FLAG_DOWNSCALER 0x00000020 /* Card supports hw downscaling */
#define FLAG_SUBPIC 0x00001000 /* Card supports DVD subpictures */
#define FLAG_EQUALIZER 0x00002000 /* Card supports equalizer */
unsigned flags; /* Feature flags, see above */
unsigned short vendor_id;
unsigned short device_id;
unsigned reserved1[4];
}vidix_capability_t;
/* Should fill at least type before init.
Returns 0 if ok else errno */
extern int vixGetCapability(vidix_capability_t *);
typedef struct vidix_fourcc_s
{
unsigned fourcc;
#define VID_DEPTH_NONE 0x0000
#define VID_DEPTH_1BPP 0x0001
#define VID_DEPTH_2BPP 0x0002
#define VID_DEPTH_4BPP 0x0004
#define VID_DEPTH_8BPP 0x0008
#define VID_DEPTH_12BPP 0x0010
#define VID_DEPTH_15BPP 0x0020
#define VID_DEPTH_16BPP 0x0040
#define VID_DEPTH_24BPP 0x0080
#define VID_DEPTH_32BPP 0x0100
unsigned depth;
#define VID_CAP_NONE 0x0000
#define VID_CAP_EXPAND 0x0001 /* if overlay can be bigger than source */
#define VID_CAP_SHRINK 0x0002 /* if overlay can be smaller than source */
#define VID_CAP_BLEND 0x0004 /* if overlay can be blended with framebuffer */
#define VID_CAP_COLORKEY 0x0008 /* if overlay can be restricted to a colorkey */
#define VID_CAP_ALPHAKEY 0x0010 /* if overlay can be restricted to an alpha channel */
#define VID_CAP_COLORKEY_ISRANGE 0x0020 /* if the colorkey can be a range */
#define VID_CAP_ALPHAKEY_ISRANGE 0x0040 /* if the alphakey can be a range */
#define VID_CAP_COLORKEY_ISMAIN 0x0080 /* colorkey is checked against framebuffer */
#define VID_CAP_COLORKEY_ISOVERLAY 0x0100 /* colorkey is checked against overlay */
#define VID_CAP_ALPHAKEY_ISMAIN 0x0200 /* alphakey is checked against framebuffer */
#define VID_CAP_ALPHAKEY_ISOVERLAY 0x0400 /* alphakey is checked against overlay */
unsigned flags;
}vidix_fourcc_t;
/* Returns 0 if ok else errno */
extern int vixQueryFourcc(vidix_fourcc_t *);
typedef struct vidix_yuv_s
{
unsigned y,u,v;
}vidix_yuv_t;
typedef struct vidix_rect_s
{
unsigned x,y,w,h; /* in pixels */
vidix_yuv_t pitch; /* line-align in bytes */
}vidix_rect_t;
typedef struct vidix_color_key_s
{
#define CKEY_FALSE 0
#define CKEY_TRUE 1
#define CKEY_EQ 2
#define CKEY_NEQ 3
unsigned op; /* defines logical operation */
unsigned char red;
unsigned char green;
unsigned char blue;
unsigned char reserved;
}vidix_ckey_t;
typedef struct vidix_video_key_s
{
#define VKEY_FALSE 0
#define VKEY_TRUE 1
#define VKEY_EQ 2
#define VKEY_NEQ 3
unsigned op; /* defines logical operation */
unsigned char key[8];
}vidix_vkey_t;
typedef struct vidix_playback_s
{
unsigned fourcc; /* app -> driver: movies's fourcc */
unsigned capability; /* app -> driver: what capability to use */
unsigned blend_factor; /* app -> driver: blending factor */
vidix_rect_t src; /* app -> driver: original movie size */
vidix_rect_t dest; /* app -> driver: destinition movie size. driver->app dest_pitch */
#define VID_PLAY_INTERLEAVED_UV 0x00000001 /* driver -> app: interleaved UV planes */
#define INTERLEAVING_UV 0x00001000 /* UVUVUVUVUV used by Matrox G200 */
#define INTERLEAVING_VU 0x00001001 /* VUVUVUVUVU */
int flags;
/* memory model */
unsigned frame_size; /* driver -> app: destinition frame size */
unsigned num_frames; /* app -> driver: after call: driver -> app */
#define VID_PLAY_MAXFRAMES 32
unsigned offsets[VID_PLAY_MAXFRAMES]; /* driver -> app */
vidix_yuv_t offset; /* driver -> app: relative offsets within frame for yuv planes */
void* dga_addr; /* driver -> app: linear address */
}vidix_playback_t;
/* Returns 0 if ok else errno */
extern int vixConfigPlayback(vidix_playback_t *);
/* Returns 0 if ok else errno */
extern int vixPlaybackOn( void );
/* Returns 0 if ok else errno */
extern int vixPlaybackOff( void );
/* Returns 0 if ok else errno */
extern int vixPlaybackFrameSelect( unsigned frame_idx );
typedef struct vidix_grkey_s
{
vidix_ckey_t ckey; /* app -> driver: color key */
vidix_vkey_t vkey; /* app -> driver: video key */
#define KEYS_PUT 0
#define KEYS_AND 1
#define KEYS_OR 2
#define KEYS_XOR 3
unsigned key_op; /* app -> driver: keys operations */
}vidix_grkey_t;
/* Returns 0 if ok else errno */
extern int vixGetGrKeys( vidix_grkey_t * );
/* Returns 0 if ok else errno */
extern int vixSetGrKeys( const vidix_grkey_t * );
typedef struct vidix_video_eq_s
{
#define VEQ_CAP_NONE 0x00000000UL
#define VEQ_CAP_BRIGHTNESS 0x00000001UL
#define VEQ_CAP_CONTRAST 0x00000002UL
#define VEQ_CAP_SATURATION 0x00000004UL
#define VEQ_CAP_HUE 0x00000008UL
#define VEQ_CAP_RGB_INTENSITY 0x00000010UL
int cap; /* on get_eq should contain capability of equalizer
on set_eq should contain using fields */
/* end-user app can have presets like: cold-normal-hot picture and so on */
int brightness; /* -1000 : +1000 */
int contrast; /* -1000 : +1000 */
int saturation; /* -1000 : +1000 */
int hue; /* -1000 : +1000 */
int red_intensity; /* -1000 : +1000 */
int green_intensity;/* -1000 : +1000 */
int blue_intensity; /* -1000 : +1000 */
#define VEQ_FLG_ITU_R_BT_601 0x00000000 /* ITU-R BT.601 colour space (default) */
#define VEQ_FLG_ITU_R_BT_709 0x00000001 /* ITU-R BT.709 colour space */
#define VEQ_FLG_ITU_MASK 0x0000000f
int flags; /* currently specifies ITU YCrCb color space to use */
}vidix_video_eq_t;
/* Returns 0 if ok else errno */
extern int vixPlaybackGetEq( vidix_video_eq_t * );
/* Returns 0 if ok else errno */
extern int vixPlaybackSetEq( const vidix_video_eq_t * );
typedef struct vidix_deinterlace_s
{
#define CFG_NON_INTERLACED 0x00000000 /* stream is not interlaced */
#define CFG_INTERLACED 0x00000001 /* stream is interlaced */
#define CFG_EVEN_ODD_INTERLACING 0x00000002 /* first frame contains even fields but second - odd */
#define CFG_ODD_EVEN_INTERLACING 0x00000004 /* first frame contains odd fields but second - even */
#define CFG_UNIQUE_INTERLACING 0x00000008 /* field deinterlace_pattern is valid */
#define CFG_UNKNOWN_INTERLACING 0x0000000f /* unknown deinterlacing - use adaptive if it's possible */
unsigned flags;
unsigned deinterlace_pattern; /* app -> driver: deinterlace pattern if flag CFG_UNIQUE_INTERLACING is set */
}vidix_deinterlace_t;
/* Returns 0 if ok else errno */
extern int vixPlaybackGetDeint( vidix_deinterlace_t * );
/* Returns 0 if ok else errno */
extern int vixPlaybackSetDeint( const vidix_deinterlace_t * );
typedef struct vidix_slice_s
{
void* address; /* app -> driver */
unsigned size; /* app -> driver */
vidix_rect_t slice; /* app -> driver */
}vidix_slice_t;
typedef struct vidix_dma_s
{
vidix_slice_t src; /* app -> driver */
vidix_slice_t dest; /* app -> driver */
#define LVO_DMA_NOSYNC 0
#define LVO_DMA_SYNC 1 /* means: wait vsync or hsync */
unsigned flags; /* app -> driver */
}vidix_dma_t;
/* Returns 0 if ok else errno */
extern int vixPlaybackCopyFrame( const vidix_dma_t * );
/*
This structure is introdused to support OEM effects like:
- sharpness
- exposure
- (auto)gain
- H(V)flip
- black level
- white balance
and many other
*/
typedef struct vidix_oem_fx_s
{
#define FX_TYPE_BOOLEAN 0x00000000
#define FX_TYPE_INTEGER 0x00000001
int type; /* type of effects */
int num; /* app -> driver: effect number. From 0 to max number of effects */
int minvalue; /* min value of effect. 0 - for boolean */
int maxvalue; /* max value of effect. 1 - for boolean */
int value; /* current value of effect on 'get'; required on set */
char * name[80]; /* effect name to display */
}vidix_oem_fx_t;
/* Returns 0 if ok else errno */
extern int vixQueryNumOemEffects( unsigned * number );
/* Returns 0 if ok else errno */
extern int vixGetOemEffect( vidix_oem_fx_t * );
/* Returns 0 if ok else errno */
extern int vixSetOemEffect( const vidix_oem_fx_t * );
#ifdef __cplusplus
}
#endif
#endif