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/*
 * Copyright (c) 2007 Intel Corporation. All Rights Reserved.
 *
 * Permission is hereby granted, free of charge, to any person obtaining a
 * copy of this software and associated documentation files (the
 * "Software"), to deal in the Software without restriction, including
 * without limitation the rights to use, copy, modify, merge, publish,
 * distribute, sub license, and/or sell copies of the Software, and to
 * permit persons to whom the Software is furnished to do so, subject to
 * the following conditions:
 * 
 * The above copyright notice and this permission notice (including the
 * next paragraph) shall be included in all copies or substantial portions
 * of the Software.
 * 
 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
 * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
 * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT.
 * IN NO EVENT SHALL PRECISION INSIGHT AND/OR ITS SUPPLIERS BE LIABLE FOR
 * ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
 * TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
 * SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
 */
/*
 * Video Decode Acceleration API Specification
 *
 * Rev. 0.29
 * <jonathan.bian@intel.com>
 *
 * Revision History:
 * rev 0.10 (12/10/2006 Jonathan Bian) - Initial draft
 * rev 0.11 (12/15/2006 Jonathan Bian) - Fixed some errors
 * rev 0.12 (02/05/2007 Jonathan Bian) - Added VC-1 data structures for slice level decode
 * rev 0.13 (02/28/2007 Jonathan Bian) - Added GetDisplay()
 * rev 0.14 (04/13/2007 Jonathan Bian) - Fixed MPEG-2 PictureParameter structure, cleaned up a few funcs.
 * rev 0.15 (04/20/2007 Jonathan Bian) - Overhauled buffer management
 * rev 0.16 (05/02/2007 Jonathan Bian) - Added error codes and fixed some issues with configuration
 * rev 0.17 (05/07/2007 Jonathan Bian) - Added H.264/AVC data structures for slice level decode.
 * rev 0.18 (05/14/2007 Jonathan Bian) - Added data structures for MPEG-4 slice level decode 
 *                                       and MPEG-2 motion compensation.
 * rev 0.19 (08/06/2007 Jonathan Bian) - Removed extra type for bitplane data.
 * rev 0.20 (08/08/2007 Jonathan Bian) - Added missing fields to VC-1 PictureParameter structure.
 * rev 0.21 (08/20/2007 Jonathan Bian) - Added image and subpicture support.
 * rev 0.22 (08/27/2007 Jonathan Bian) - Added support for chroma-keying and global alpha.
 * rev 0.23 (09/11/2007 Jonathan Bian) - Fixed some issues with images and subpictures.
 * rev 0.24 (09/18/2007 Jonathan Bian) - Added display attributes.
 * rev 0.25 (10/18/2007 Jonathan Bian) - Changed to use IDs only for some types.
 * rev 0.26 (11/07/2007 Waldo Bastian) - Change vaCreateBuffer semantics
 * rev 0.27 (11/19/2007 Matt Sottek)   - Added DeriveImage
 * rev 0.28 (12/06/2007 Jonathan Bian) - Added new versions of PutImage and AssociateSubpicture
 *                                       to enable scaling
 * rev 0.29 (02/07/2007 Jonathan Bian) - VC1 parameter fixes,
 *                                       added VA_STATUS_ERROR_RESOLUTION_NOT_SUPPORTED
 *
 * Acknowledgements:
 *  Some concepts borrowed from XvMC and XvImage.
 *  Thanks to Waldo Bastian, Matt Sottek and Austin Yuan at Intel for many valuable feedbacks.
 */

#ifndef _VA_H_
#define _VA_H_

#ifdef __cplusplus
extern "C" {
#endif

/* 
Overview 

This API is intended to provide an interface between a video decode
application (client) and a hardware decode accelerator (server), to off-load 
video decode operations from the host to the hardware accelerator at various 
entry-points.

The basic operation steps are:

- Negotiate a mutually acceptable configuration with the server to lock
  down profile, entrypoints, and other attributes that will not change on 
  a frame-by-frame basis.
- Create a decode context which represents a "virtualized" hardware decode 
  device
- Get and fill decode buffers with picture level, slice level and macroblock 
  level data (depending on entrypoints)
- Pass the decode buffers to the server to decode the current frame

Initialization & Configuration Management 

- Find out supported profiles
- Find out entrypoints for a given profile
- Find out configuration attributes for a given profile/entrypoint pair
- Create a configuration for use by the decoder

*/

typedef void* VADisplay;	/* window system dependent */

typedef int VAStatus;	/* Return status type from functions */
/* Values for the return status */
#define VA_STATUS_SUCCESS			0x00000000
#define VA_STATUS_ERROR_OPERATION_FAILED	0x00000001
#define VA_STATUS_ERROR_ALLOCATION_FAILED	0x00000002
#define VA_STATUS_ERROR_INVALID_DISPLAY		0x00000003
#define VA_STATUS_ERROR_INVALID_CONFIG		0x00000004
#define VA_STATUS_ERROR_INVALID_CONTEXT		0x00000005
#define VA_STATUS_ERROR_INVALID_SURFACE		0x00000006
#define VA_STATUS_ERROR_INVALID_BUFFER		0x00000007
#define VA_STATUS_ERROR_INVALID_IMAGE		0x00000008
#define VA_STATUS_ERROR_INVALID_SUBPICTURE	0x00000009
#define VA_STATUS_ERROR_ATTR_NOT_SUPPORTED	0x0000000a
#define VA_STATUS_ERROR_MAX_NUM_EXCEEDED	0x0000000b
#define VA_STATUS_ERROR_UNSUPPORTED_PROFILE	0x0000000c
#define VA_STATUS_ERROR_UNSUPPORTED_ENTRYPOINT	0x0000000d
#define VA_STATUS_ERROR_UNSUPPORTED_RT_FORMAT	0x0000000e
#define VA_STATUS_ERROR_UNSUPPORTED_BUFFERTYPE	0x0000000f
#define VA_STATUS_ERROR_SURFACE_BUSY		0x00000010
#define VA_STATUS_ERROR_FLAG_NOT_SUPPORTED      0x00000011
#define VA_STATUS_ERROR_INVALID_PARAMETER	0x00000012
#define VA_STATUS_ERROR_RESOLUTION_NOT_SUPPORTED 0x00000013
#define VA_STATUS_ERROR_UNKNOWN			0xFFFFFFFF

/*
 * Returns a short english description of error_status
 */
const char *vaErrorStr(VAStatus error_status);

/*
 * Initialization:
 * A display must be obtained by calling vaGetDisplay() before calling
 * vaInitialize() and other functions. This connects the API to the 
 * native window system.
 * For X Windows, native_dpy would be from XOpenDisplay()
 */
typedef void* NativeDisplay;	/* window system dependent */

VADisplay vaGetDisplay (
    NativeDisplay native_dpy	/* implementation specific */
);

/*
 * Initialize the library 
 */
VAStatus vaInitialize (
    VADisplay dpy,
    int *major_version,	 /* out */
    int *minor_version 	 /* out */
);

/*
 * After this call, all library internal resources will be cleaned up
 */ 
VAStatus vaTerminate (
    VADisplay dpy
);

/*
 * vaQueryVendorString returns a pointer to a zero-terminated string
 * describing some aspects of the VA implemenation on a specific    
 * hardware accelerator. The format of the returned string is vendor
 * specific and at the discretion of the implementer.
 * e.g. for the Intel GMA500 implementation, an example would be:   
 * "Intel GMA500 - 2.0.0.32L.0005"
 */
const char *vaQueryVendorString (
    VADisplay dpy
);

typedef int (*VAPrivFunc)();

/*
 * Return a function pointer given a function name in the library.
 * This allows private interfaces into the library
 */ 
VAPrivFunc vaGetLibFunc (
    VADisplay dpy,
    const char *func
);

/* Currently defined profiles */
typedef enum
{
    VAProfileMPEG2Simple		= 0,
    VAProfileMPEG2Main			= 1,
    VAProfileMPEG4Simple		= 2,
    VAProfileMPEG4AdvancedSimple	= 3,
    VAProfileMPEG4Main			= 4,
    VAProfileH264Baseline		= 5,
    VAProfileH264Main			= 6,
    VAProfileH264High			= 7,
    VAProfileVC1Simple			= 8,
    VAProfileVC1Main			= 9,
    VAProfileVC1Advanced		= 10,
} VAProfile;

/* 
 *  Currently defined entrypoints 
 */
typedef enum
{
    VAEntrypointVLD		= 1,
    VAEntrypointIZZ		= 2,
    VAEntrypointIDCT		= 3,
    VAEntrypointMoComp		= 4,
    VAEntrypointDeblocking	= 5,
} VAEntrypoint;

/* Currently defined configuration attribute types */
typedef enum
{
    VAConfigAttribRTFormat		= 0,
    VAConfigAttribSpatialResidual	= 1,
    VAConfigAttribSpatialClipping	= 2,
    VAConfigAttribIntraResidual		= 3,
    VAConfigAttribEncryption		= 4,
} VAConfigAttribType;

/*
 * Configuration attributes
 * If there is more than one value for an attribute, a default
 * value will be assigned to the attribute if the client does not
 * specify the attribute when creating a configuration
 */
typedef struct _VAConfigAttrib {
    VAConfigAttribType type;
    unsigned int value; /* OR'd flags (bits) for this attribute */
} VAConfigAttrib;

/* attribute value for VAConfigAttribRTFormat */
#define VA_RT_FORMAT_YUV420	0x00000001	
#define VA_RT_FORMAT_YUV422	0x00000002
#define VA_RT_FORMAT_YUV444	0x00000004

/*
 * if an attribute is not applicable for a given
 * profile/entrypoint pair, then set the value to the following 
 */
#define VA_ATTRIB_NOT_SUPPORTED 0x80000000

/* Get maximum number of profiles supported by the implementation */
int vaMaxNumProfiles (
    VADisplay dpy
);

/* Get maximum number of entrypoints supported by the implementation */
int vaMaxNumEntrypoints (
    VADisplay dpy
);

/* Get maximum number of attributs supported by the implementation */
int vaMaxNumConfigAttributes (
    VADisplay dpy
);

/* 
 * Query supported profiles 
 * The caller must provide a "profile_list" array that can hold at
 * least vaMaxNumProfile() entries. The actual number of profiles
 * returned in "profile_list" is returned in "num_profile".
 */
VAStatus vaQueryConfigProfiles (
    VADisplay dpy,
    VAProfile *profile_list,	/* out */
    int *num_profiles		/* out */
);

/* 
 * Query supported entrypoints for a given profile 
 * The caller must provide an "entrypoint_list" array that can hold at
 * least vaMaxNumEntrypoints() entries. The actual number of entrypoints 
 * returned in "entrypoint_list" is returned in "num_entrypoints".
 */
VAStatus vaQueryConfigEntrypoints (
    VADisplay dpy,
    VAProfile profile,
    VAEntrypoint *entrypoint_list,	/* out */
    int *num_entrypoints		/* out */
);

/* 
 * Get attributes for a given profile/entrypoint pair 
 * The caller must provide an "attrib_list" with all attributes to be 
 * retrieved.  Upon return, the attributes in "attrib_list" have been 
 * updated with their value.  Unknown attributes or attributes that are 
 * not supported for the given profile/entrypoint pair will have their 
 * value set to VA_ATTRIB_NOT_SUPPORTED
 */
VAStatus vaGetConfigAttributes (
    VADisplay dpy,
    VAProfile profile,
    VAEntrypoint entrypoint,
    VAConfigAttrib *attrib_list, /* in/out */
    int num_attribs
);

/* Generic ID type, can be re-typed for specific implementation */
typedef unsigned int VAGenericID;

typedef VAGenericID VAConfigID;

/* 
 * Create a configuration for the decode pipeline 
 * it passes in the attribute list that specifies the attributes it cares 
 * about, with the rest taking default values.  
 */
VAStatus vaCreateConfig (
    VADisplay dpy,
    VAProfile profile, 
    VAEntrypoint entrypoint, 
    VAConfigAttrib *attrib_list,
    int num_attribs,
    VAConfigID *config_id /* out */
);

/* 
 * Free resources associdated with a given config 
 */
VAStatus vaDestroyConfig (
    VADisplay dpy,
    VAConfigID config_id
);

/* 
 * Query all attributes for a given configuration 
 * The profile of the configuration is returned in "profile"
 * The entrypoint of the configuration is returned in "entrypoint"
 * The caller must provide an "attrib_list" array that can hold at least 
 * vaMaxNumConfigAttributes() entries. The actual number of attributes 
 * returned in "attrib_list" is returned in "num_attribs"
 */
VAStatus vaQueryConfigAttributes (
    VADisplay dpy,
    VAConfigID config_id, 
    VAProfile *profile, 	/* out */
    VAEntrypoint *entrypoint, 	/* out */
    VAConfigAttrib *attrib_list,/* out */
    int *num_attribs 		/* out */
);


/*
 * Contexts and Surfaces
 *
 * Context represents a "virtual" video decode pipeline. Surfaces are render 
 * targets for a given context. The data in the surfaces are not accessible  
 * to the client and the internal data format of the surface is implementatin 
 * specific. 
 *
 * Surfaces will be bound to a context when the context is created. Once
 * a surface is bound to a given context, it can not be used to create  
 * another context. The association is removed when the context is destroyed
 * 
 * Both contexts and surfaces are identified by unique IDs and its
 * implementation specific internals are kept opaque to the clients
 */

typedef VAGenericID VAContextID;

typedef VAGenericID VASurfaceID;

#define VA_INVALID_SURFACE	-1

/* 
 * vaCreateSurfaces - Create an array of surfaces used for decode and display  
 *  dpy: display
 *  width: surface width
 *  height: surface height
 *  format: VA_RT_FORMAT_YUV420, VA_RT_FORMAT_YUV422 or VA_RT_FORMAT_YUV444
 *  num_surfaces: number of surfaces to be created
 *  surfaces: array of surfaces created upon return
 */
VAStatus vaCreateSurfaces (
    VADisplay dpy,
    int width,
    int height,
    int format,
    int num_surfaces,
    VASurfaceID *surfaces	/* out */
);

/*
 * vaDestroySurfaces - Destroy resources associated with surfaces. 
 *  Surfaces can only be destroyed after the context associated has been 
 *  destroyed.  
 *  dpy: display
 *  surfaces: array of surfaces to destroy
 *  num_surfaces: number of surfaces in the array to be destroyed.
 */
VAStatus vaDestroySurfaces (
    VADisplay dpy,
    VASurfaceID *surfaces,
    int num_surfaces
);

#define VA_PROGRESSIVE 0x1
/*
 * vaCreateContext - Create a context
 *  dpy: display
 *  config_id: configuration for the context
 *  picture_width: coded picture width
 *  picture_height: coded picture height
 *  flag: any combination of the following:
 *    VA_PROGRESSIVE (only progressive frame pictures in the sequence when set)
 *  render_targets: render targets (surfaces) tied to the context
 *  num_render_targets: number of render targets in the above array
 *  context: created context id upon return
 */
VAStatus vaCreateContext (
    VADisplay dpy,
    VAConfigID config_id,
    int picture_width,
    int picture_height,
    int flag,
    VASurfaceID *render_targets,
    int num_render_targets,
    VAContextID *context		/* out */
);

/*
 * vaDestroyContext - Destroy a context 
 *  dpy: display
 *  context: context to be destroyed
 */
VAStatus vaDestroyContext (
    VADisplay dpy,
    VAContextID context
);

/*
 * Buffers 
 * Buffers are used to pass various types of data from the
 * client to the server. The server maintains a data store
 * for each buffer created, and the client idenfies a buffer
 * through a unique buffer id assigned by the server.
 */

typedef VAGenericID VABufferID;

typedef enum
{
    VAPictureParameterBufferType	= 0,
    VAIQMatrixBufferType		= 1,
    VABitPlaneBufferType		= 2,
    VASliceGroupMapBufferType		= 3,
    VASliceParameterBufferType		= 4,
    VASliceDataBufferType		= 5,
    VAMacroblockParameterBufferType	= 6,
    VAResidualDataBufferType		= 7,
    VADeblockingParameterBufferType	= 8,
    VAImageBufferType			= 9
} VABufferType;

/****************************
 * MPEG-2 data structures
 ****************************/
 
/* MPEG-2 Picture Parameter Buffer */
/* 
 * For each frame or field, and before any slice data, a single
 * picture parameter buffer must be send.
 */
typedef struct _VAPictureParameterBufferMPEG2
{
    unsigned short horizontal_size;
    unsigned short vertical_size;
    VASurfaceID forward_reference_picture;
    VASurfaceID backward_reference_picture;
    /* meanings of the following fields are the same as in the standard */
    int picture_coding_type;
    int f_code; /* pack all four fcode into this */
    union {
        struct {
            unsigned char intra_dc_precision		: 2; 
            unsigned char picture_structure		: 2; 
            unsigned char top_field_first		: 1; 
            unsigned char frame_pred_frame_dct		: 1; 
            unsigned char concealment_motion_vectors	: 1;
            unsigned char q_scale_type			: 1;
            unsigned char intra_vlc_format		: 1;
            unsigned char alternate_scan		: 1;
            unsigned char repeat_first_field		: 1;
            unsigned char progressive_frame		: 1;
            unsigned char is_first_field		: 1; /* indicate whether the current field
                                                              * is the first field for field picture
                                                              */
        };
        unsigned int picture_coding_extension;
    };
} VAPictureParameterBufferMPEG2;

/* MPEG-2 Inverse Quantization Matrix Buffer */
typedef struct _VAIQMatrixBufferMPEG2
{
    int load_intra_quantiser_matrix;
    int load_non_intra_quantiser_matrix;
    int load_chroma_intra_quantiser_matrix;
    int load_chroma_non_intra_quantiser_matrix;
    unsigned char intra_quantiser_matrix[64];
    unsigned char non_intra_quantiser_matrix[64];
    unsigned char chroma_intra_quantiser_matrix[64];
    unsigned char chroma_non_intra_quantiser_matrix[64];
} VAIQMatrixBufferMPEG2;

/* 
 * There will be cases where the bitstream buffer will not have enough room to hold
 * the data for the entire slice, and the following flags will be used in the slice
 * parameter to signal to the server for the possible cases.
 * If a slice parameter buffer and slice data buffer pair is sent to the server with 
 * the slice data partially in the slice data buffer (BEGIN and MIDDLE cases below), 
 * then a slice parameter and data buffer needs to be sent again to complete this slice. 
 */
#define VA_SLICE_DATA_FLAG_ALL		0x00	/* whole slice is in the buffer */
#define VA_SLICE_DATA_FLAG_BEGIN	0x01	/* The beginning of the slice is in the buffer but the end if not */
#define VA_SLICE_DATA_FLAG_MIDDLE	0x02	/* Neither beginning nor end of the slice is in the buffer */
#define VA_SLICE_DATA_FLAG_END		0x04	/* end of the slice is in the buffer */

/* MPEG-2 Slice Parameter Buffer */
typedef struct _VASliceParameterBufferMPEG2
{
    unsigned int slice_data_size;/* number of bytes in the slice data buffer for this slice */
    unsigned int slice_data_offset;/* the offset to the first byte of slice data */
    unsigned int slice_data_flag; /* see VA_SLICE_DATA_FLAG_XXX defintions */
    unsigned int macroblock_offset;/* the offset to the first bit of MB from the first byte of slice data */
    unsigned int slice_vertical_position;
    int quantiser_scale_code;
    int intra_slice_flag;
} VASliceParameterBufferMPEG2;

/* MPEG-2 Macroblock Parameter Buffer */
typedef struct _VAMacroblockParameterBufferMPEG2
{
    unsigned short macroblock_address;
    /* 
     * macroblock_address (in raster scan order)
     * top-left: 0
     * bottom-right: picture-height-in-mb*picture-width-in-mb - 1
     */
    unsigned char macroblock_type;  /* see definition below */
    union {
        struct {
            unsigned char frame_motion_type		: 2; 
            unsigned char field_motion_type		: 2; 
            unsigned char dct_type			: 1; 
        };
        unsigned char macroblock_modes;
    };
    unsigned char motion_vertical_field_select; 
    /* 
     * motion_vertical_field_select:
     * see section 6.3.17.2 in the spec
     * only the lower 4 bits are used
     * bit 0: first vector forward
     * bit 1: first vector backward
     * bit 2: second vector forward
     * bit 3: second vector backward
     */
    short PMV[2][2][2]; /* see Table 7-7 in the spec */
    unsigned short coded_block_pattern;
    /* 
     * The bitplanes for coded_block_pattern are described 
     * in Figure 6.10-12 in the spec
     */
     
    /* Number of skipped macroblocks after this macroblock */
    unsigned short num_skipped_macroblocks;
} VAMacroblockParameterBufferMPEG2;

/* 
 * OR'd flags for macroblock_type (section 6.3.17.1 in the spec)
 */
#define VA_MB_TYPE_MOTION_FORWARD	0x02
#define VA_MB_TYPE_MOTION_BACKWARD	0x04
#define VA_MB_TYPE_MOTION_PATTERN	0x08
#define VA_MB_TYPE_MOTION_INTRA		0x10

/* 
 * MPEG-2 Residual Data Buffer 
 * For each macroblock, there wil be 64 shorts (16-bit) in the 
 * residual data buffer
 */

/****************************
 * MPEG-4 Part 2 data structures
 ****************************/
 
/* MPEG-4 Picture Parameter Buffer */
/* 
 * For each frame or field, and before any slice data, a single
 * picture parameter buffer must be send.
 */
typedef struct _VAPictureParameterBufferMPEG4
{
    unsigned short vop_width;
    unsigned short vop_height;
    VASurfaceID forward_reference_picture;
    VASurfaceID backward_reference_picture;
    union {
        struct {
            unsigned char short_video_header		: 1; 
            unsigned char chroma_format			: 2; 
            unsigned char interlaced			: 1; 
            unsigned char obmc_disable			: 1; 
            unsigned char sprite_enable			: 2; 
            unsigned char sprite_warping_accuracy	: 2; 
            unsigned char quant_type			: 1; 
            unsigned char quarter_sample		: 1; 
            unsigned char data_partitioned		: 1; 
            unsigned char reversible_vlc		: 1; 
        };
        unsigned short vol_fields;
    };
    unsigned char no_of_sprite_warping_points;
    short sprite_trajectory_du[3];
    short sprite_trajectory_dv[3];
    unsigned char quant_precision;
    union {
        struct {
            unsigned char vop_coding_type		: 2; 
            unsigned char backward_reference_vop_coding_type	: 2; 
            unsigned char vop_rounding_type		: 1; 
            unsigned char intra_dc_vlc_thr		: 3; 
            unsigned char top_field_first		: 1; 
            unsigned char alternate_vertical_scan_flag	: 1; 
        };
        unsigned short vop_fields;
    };
    unsigned char vop_fcode_forward;
    unsigned char vop_fcode_backward;
    /* short header related */
    unsigned char num_gobs_in_vop;
    unsigned char num_macroblocks_in_gob;
    /* for direct mode prediction */
    short TRB;
    short TRD;
} VAPictureParameterBufferMPEG4;

/* MPEG-4 Inverse Quantization Matrix Buffer */
typedef struct _VAIQMatrixBufferMPEG4
{
    int load_intra_quant_mat;
    int load_non_intra_quant_mat;
    unsigned char intra_quant_mat[64];
    unsigned char non_intra_quant_mat[64];
} VAIQMatrixBufferMPEG4;

/* MPEG-4 Slice Parameter Buffer */
typedef struct _VASliceParameterBufferMPEG4
{
    unsigned int slice_data_size;/* number of bytes in the slice data buffer for this slice */
    unsigned int slice_data_offset;/* the offset to the first byte of slice data */
    unsigned int slice_data_flag; /* see VA_SLICE_DATA_FLAG_XXX defintions */
    unsigned int macroblock_offset;/* the offset to the first bit of MB from the first byte of slice data */
    unsigned int macroblock_number;
    int quant_scale;
} VASliceParameterBufferMPEG4;

/*
 VC-1 data structures
*/

typedef enum   /* see 7.1.1.32 */
{
    VAMvMode1Mv                        = 0,
    VAMvMode1MvHalfPel                 = 1,
    VAMvMode1MvHalfPelBilinear         = 2,
    VAMvModeMixedMv                    = 3,
    VAMvModeIntensityCompensation      = 4 
} VAMvModeVC1;

/* VC-1 Picture Parameter Buffer */
/* 
 * For each picture, and before any slice data, a picture parameter
 * buffer must be send. Multiple picture parameter buffers may be
 * sent for a single picture. In that case picture parameters will
 * apply to all slice data that follow it until a new picture
 * parameter buffer is sent.
 *
 * Notes:
 *   pic_quantizer_type should be set to the applicable quantizer
 *   type as defined by QUANTIZER (J.1.19) and either
 *   PQUANTIZER (7.1.1.8) or PQINDEX (7.1.1.6)
 */
typedef struct _VAPictureParameterBufferVC1
{
    VASurfaceID forward_reference_picture;
    VASurfaceID backward_reference_picture;
    /* if out-of-loop post-processing is done on the render
       target, then we need to keep the in-loop decoded 
       picture as a reference picture */
    VASurfaceID inloop_decoded_picture;

    /* sequence layer for AP or meta data for SP and MP */
    union {
        struct {
            unsigned char interlace	: 1; /* SEQUENCE_LAYER::INTERLACE */
            unsigned char syncmarker	: 1;/* METADATA::SYNCMARKER */
            unsigned char overlap	: 1;/* METADATA::OVERLAP */
        };
        unsigned char sequence_fields;
    };

    unsigned short coded_width;		/* ENTRY_POINT_LAYER::CODED_WIDTH */
    unsigned short coded_height;	/* ENTRY_POINT_LAYER::CODED_HEIGHT */
    unsigned char closed_entry;		/* ENTRY_POINT_LAYER::CLOSED_ENTRY */
    unsigned char broken_link;		/* ENTRY_POINT_LAYER::BROKEN_LINK */
    unsigned char loopfilter;		/* ENTRY_POINT_LAYER::LOOPFILTER */
    unsigned char conditional_overlap_flag; /* ENTRY_POINT_LAYER::CONDOVER */
    unsigned char fast_uvmc_flag;	/* ENTRY_POINT_LAYER::FASTUVMC */
    union {
        struct {
            unsigned char range_mapping_luma_flag: 	1; /* ENTRY_POINT_LAYER::RANGE_MAPY_FLAG */
            unsigned char range_mapping_luma: 		3; /* ENTRY_POINT_LAYER::RANGE_MAPY */
            unsigned char range_mapping_chroma_flag:	1; /* ENTRY_POINT_LAYER::RANGE_MAPUV_FLAG */
            unsigned char range_mapping_chroma:		3; /* ENTRY_POINT_LAYER::RANGE_MAPUV */
        };
        unsigned char range_mapping_fields;
    };

    unsigned char b_picture_fraction;	/* PICTURE_LAYER::BFRACTION */
    unsigned char cbp_table;		/* PICTURE_LAYER::CBPTAB/ICBPTAB */
    unsigned char mb_mode_table;	/* PICTURE_LAYER::MBMODETAB */
    unsigned char range_reduction_frame;/* PICTURE_LAYER::RANGEREDFRM */
    unsigned char rounding_control;	/* PICTURE_LAYER::RNDCTRL */
    unsigned char post_processing;	/* PICTURE_LAYER::POSTPROC */
    unsigned char picture_resolution_index;	/* PICTURE_LAYER::RESPIC */
    unsigned char luma_scale;		/* PICTURE_LAYER::LUMSCALE */
    unsigned char luma_shift;		/* PICTURE_LAYER::LUMSHIFT */
    union {
        struct {
            unsigned char picture_type	: 2; 	/* PICTURE_LAYER::PTYPE */
            unsigned char frame_coding_mode	: 3;/* PICTURE_LAYER::FCM */
            unsigned char top_field_first	: 1;/* PICTURE_LAYER::TFF */
            unsigned char is_first_field	: 1; /* set to 1 if it is the first field */
            unsigned char intensity_compensation: 1;/* PICTURE_LAYER::INTCOMP */
        };
        unsigned char picture_fields;
    };
    union {
        struct {
            unsigned char mv_type_mb	: 1; 	/* PICTURE::MVTYPEMB */
            unsigned char direct_mb	: 1; 	/* PICTURE::DIRECTMB */
            unsigned char skip_mb	: 1; 	/* PICTURE::SKIPMB */
            unsigned char field_tx	: 1; 	/* PICTURE::FIELDTX */
            unsigned char forward_mb	: 1;	/* PICTURE::FORWARDMB */
            unsigned char ac_pred	: 1;	/* PICTURE::ACPRED */
            unsigned char overflags	: 1;	/* PICTURE::OVERFLAGS */
        };
        unsigned char raw_coding_flag;
    };
    union {
        struct {
            unsigned char bp_mv_type_mb   : 1;    /* PICTURE::MVTYPEMB */
            unsigned char bp_direct_mb    : 1;    /* PICTURE::DIRECTMB */
            unsigned char bp_skip_mb      : 1;    /* PICTURE::SKIPMB */  
            unsigned char bp_field_tx     : 1;    /* PICTURE::FIELDTX */ 
            unsigned char bp_forward_mb   : 1;    /* PICTURE::FORWARDMB */
            unsigned char bp_ac_pred      : 1;    /* PICTURE::ACPRED */   
            unsigned char bp_overflags    : 1;    /* PICTURE::OVERFLAGS */
        };
        unsigned char bitplane_present_flag; /* signal what bitplane is being passed via the bitplane buffer */
    };
    union {
        struct {
            unsigned char reference_distance_flag : 1;/* PICTURE_LAYER::REFDIST_FLAG */
            unsigned char reference_distance	: 5;/* PICTURE_LAYER::REFDIST */
            unsigned char num_reference_pictures: 1;/* PICTURE_LAYER::NUMREF */
            unsigned char reference_field_pic_indicator	: 1;/* PICTURE_LAYER::REFFIELD */
        };
        unsigned short reference_fields;
    };
    union {
        struct {
            VAMvModeVC1 mv_mode              : 3; /* PICTURE_LAYER::MVMODE */
            VAMvModeVC1 mv_mode2             : 3; /* PICTURE_LAYER::MVMODE2 */
            unsigned char mv_table           : 3; /* PICTURE_LAYER::MVTAB/IMVTAB */
            unsigned char two_mv_block_pattern_table: 2; /* PICTURE_LAYER::2MVBPTAB */
            unsigned char four_mv_switch     : 1; /* PICTURE_LAYER::4MVSWITCH */
            unsigned char four_mv_block_pattern_table : 2; /* PICTURE_LAYER::4MVBPTAB */
            unsigned char extended_mv_flag   : 1; /* ENTRY_POINT_LAYER::EXTENDED_MV */
            unsigned char extended_mv_range  : 2; /* PICTURE_LAYER::MVRANGE */
            unsigned char extended_dmv_flag  : 1; /* ENTRY_POINT_LAYER::EXTENDED_DMV */
            unsigned char extended_dmv_range : 2; /* PICTURE_LAYER::DMVRANGE */
        };
        unsigned int mv_fields;
    };
    union {
        struct {
            unsigned char dquant	: 2; 	/* ENTRY_POINT_LAYER::DQUANT */
            unsigned char quantizer     : 2; 	/* ENTRY_POINT_LAYER::QUANTIZER */
            unsigned char half_qp	: 1; 	/* PICTURE_LAYER::HALFQP */
            unsigned char pic_quantizer_scale : 5;/* PICTURE_LAYER::PQUANT */
            unsigned char pic_quantizer_type : 1;/* PICTURE_LAYER::PQUANTIZER */
            unsigned char dq_frame	: 1; 	/* VOPDQUANT::DQUANTFRM */
            unsigned char dq_profile	: 2; 	/* VOPDQUANT::DQPROFILE */
            unsigned char dq_sb_edge	: 2; 	/* VOPDQUANT::DQSBEDGE */
            unsigned char dq_db_edge 	: 2; 	/* VOPDQUANT::DQDBEDGE */
            unsigned char dq_binary_level : 1; 	/* VOPDQUANT::DQBILEVEL */
            unsigned char alt_pic_quantizer : 5;/* VOPDQUANT::ALTPQUANT */
        };
        unsigned long pic_quantizer_fields;
    };
    union {
        struct {
            unsigned char variable_sized_transform_flag	: 1;/* ENTRY_POINT_LAYER::VSTRANSFORM */
            unsigned char mb_level_transform_type_flag	: 1;/* PICTURE_LAYER::TTMBF */
            unsigned char frame_level_transform_type	: 2;/* PICTURE_LAYER::TTFRM */
            unsigned char transform_ac_codingset_idx1	: 2;/* PICTURE_LAYER::TRANSACFRM */
            unsigned char transform_ac_codingset_idx2	: 2;/* PICTURE_LAYER::TRANSACFRM2 */
            unsigned char intra_transform_dc_table	: 1;/* PICTURE_LAYER::TRANSDCTAB */
        };
        unsigned short transform_fields;
    };
} VAPictureParameterBufferVC1;

/* VC-1 Bitplane Buffer 
There will be at most three bitplanes coded in any picture header. To send 
the bitplane data more efficiently, each byte is divided in two nibbles, with
each nibble carrying three bitplanes for one macroblock.  The following table
shows the bitplane data arrangement within each nibble based on the picture
type.

Picture Type	Bit3		Bit2		Bit1		Bit0
I or BI				OVERFLAGS	ACPRED		FIELDTX
P				MYTYPEMB	SKIPMB		DIRECTMB
B				FORWARDMB	SKIPMB		DIRECTMB

Within each byte, the lower nibble is for the first MB and the upper nibble is 
for the second MB.  E.g. the lower nibble of the first byte in the bitplane
buffer is for Macroblock #1 and the upper nibble of the first byte is for 
Macroblock #2 in the first row.
*/

/* VC-1 Slice Parameter Buffer */
typedef struct _VASliceParameterBufferVC1
{
    unsigned int slice_data_size;/* number of bytes in the slice data buffer for this slice */
    unsigned int slice_data_offset;/* the offset to the first byte of slice data */
    unsigned int slice_data_flag; /* see VA_SLICE_DATA_FLAG_XXX defintions */
    unsigned int macroblock_offset;/* the offset to the first bit of MB from the first byte of slice data */
    unsigned int slice_vertical_position;
} VASliceParameterBufferVC1;

/* VC-1 Slice Data Buffer */
/* 
This is simplely a buffer containing raw bit-stream bytes 
*/

/****************************
 * H.264/AVC data structures
 ****************************/

typedef struct _VAPictureH264
{
    VASurfaceID picture_id;
    unsigned int flags;
    unsigned int TopFieldOrderCnt;
    unsigned int BottomFieldOrderCnt;
} VAPictureH264;
/* flags in VAPictureH264 could be OR of the following */
#define VA_PICTURE_H264_INVALID			0x00000001
#define VA_PICTURE_H264_TOP_FIELD		0x00000002
#define VA_PICTURE_H264_BOTTOM_FIELD		0x00000004
#define VA_PICTURE_H264_SHORT_TERM_REFERENCE	0x00000008
#define VA_PICTURE_H264_LONG_TERM_REFERENCE	0x00000010

/* H.264 Picture Parameter Buffer */
/* 
 * For each picture, and before any slice data, a single
 * picture parameter buffer must be send.
 */
typedef struct _VAPictureParameterBufferH264
{
    VAPictureH264 CurrPic;
    VAPictureH264 ReferenceFrames[16];	/* in DPB */
    unsigned short picture_width_in_mbs_minus1;
    unsigned short picture_height_in_mbs_minus1;
    unsigned char bit_depth_luma_minus8;
    unsigned char bit_depth_chroma_minus8;
    unsigned char num_ref_frames;
    union {
        struct {
            unsigned char chroma_format_idc			: 2; 
            unsigned char residual_colour_transform_flag	: 1; 
            unsigned char frame_mbs_only_flag			: 1; 
            unsigned char mb_adaptive_frame_field_flag		: 1; 
            unsigned char direct_8x8_inference_flag		: 1; 
            unsigned char MinLumaBiPredSize8x8			: 1; /* see A.3.3.2 */
        };
        unsigned char seq_fields;
    };
    unsigned char num_slice_groups_minus1;
    unsigned char slice_group_map_type;
    signed char pic_init_qp_minus26;
    signed char chroma_qp_index_offset;
    signed char second_chroma_qp_index_offset;
    union {
        struct {
            unsigned char entropy_coding_mode_flag	: 1;
            unsigned char weighted_pred_flag		: 1;
            unsigned char weighted_bipred_idc		: 2;
            unsigned char transform_8x8_mode_flag	: 1;
            unsigned char field_pic_flag		: 1;
            unsigned char constrained_intra_pred_flag	: 1;
        };
        unsigned char pic_fields;
    };
    unsigned short frame_num;
} VAPictureParameterBufferH264;

/* H.264 Inverse Quantization Matrix Buffer */
typedef struct _VAIQMatrixBufferH264
{
    unsigned char ScalingList4x4[6][16];
    unsigned char ScalingList8x8[2][64];
} VAIQMatrixBufferH264;

/* 
 * H.264 Slice Group Map Buffer 
 * When VAPictureParameterBufferH264::num_slice_group_minus1 is not equal to 0,
 * A slice group map buffer should be sent for each picture if required. The buffer
 * is sent only when there is a change in the mapping values.
 * The slice group map buffer map "map units" to slice groups as specified in 
 * section 8.2.2 of the H.264 spec. The buffer will contain one byte for each macroblock 
 * in raster scan order
 */ 

/* H.264 Slice Parameter Buffer */
typedef struct _VASliceParameterBufferH264
{
    unsigned int slice_data_size;/* number of bytes in the slice data buffer for this slice */
    unsigned int slice_data_offset;/* the offset to the NAL start code for this slice */
    unsigned int slice_data_flag; /* see VA_SLICE_DATA_FLAG_XXX defintions */
    unsigned short slice_data_bit_offset; /* bit offset from NAL start code to the beginning of slice data */
    unsigned short first_mb_in_slice;
    unsigned char slice_type;
    unsigned char direct_spatial_mv_pred_flag;
    unsigned char num_ref_idx_l0_active_minus1;
    unsigned char num_ref_idx_l1_active_minus1;
    unsigned char cabac_init_idc;
    char slice_qp_delta;
    unsigned char disable_deblocking_filter_idc;
    char slice_alpha_c0_offset_div2;
    char slice_beta_offset_div2;
    VAPictureH264 RefPicList0[32];	/* See 8.2.4.2 */
    VAPictureH264 RefPicList1[32];	/* See 8.2.4.2 */
    unsigned char luma_log2_weight_denom;
    unsigned char chroma_log2_weight_denom;
    unsigned char luma_weight_l0_flag;
    short luma_weight_l0[32];
    short luma_offset_l0[32];
    unsigned char chroma_weight_l0_flag;
    short chroma_weight_l0[32][2];
    short chroma_offset_l0[32][2];
    unsigned char luma_weight_l1_flag;
    short luma_weight_l1[32];
    short luma_offset_l1[32];
    unsigned char chroma_weight_l1_flag;
    short chroma_weight_l1[32][2];
    short chroma_offset_l1[32][2];
} VASliceParameterBufferH264;

/* Buffer functions */

/*
 * Creates a buffer for "num_elements" elements of "size" bytes and 
 * initalize with "data".
 * if "data" is null, then the contents of the buffer data store
 * are undefined.
 * Basically there are two ways to get buffer data to the server side. One is 
 * to call vaCreateBuffer() with a non-null "data", which results the data being
 * copied to the data store on the server side.  A different method that 
 * eliminates this copy is to pass null as "data" when calling vaCreateBuffer(),
 * and then use vaMapBuffer() to map the data store from the server side to the
 * client address space for access.
 *  Note: image buffers are created by the library, not the client. Please see 
 *        vaCreateImage on how image buffers are managed.
 */
VAStatus vaCreateBuffer (
    VADisplay dpy,
    VAContextID context,
    VABufferType type,	/* in */
    unsigned int size,	/* in */
    unsigned int num_elements, /* in */
    void *data,		/* in */
    VABufferID *buf_id	/* out */
);

/*
 * Convey to the server how many valid elements are in the buffer. 
 * e.g. if multiple slice parameters are being held in a single buffer,
 * this will communicate to the server the number of slice parameters
 * that are valid in the buffer.
 */
VAStatus vaBufferSetNumElements (
    VADisplay dpy,
    VABufferID buf_id,	/* in */
    unsigned int num_elements /* in */
);

/*
 * Map data store of the buffer into the client's address space
 * vaCreateBuffer() needs to be called with "data" set to NULL before
 * calling vaMapBuffer()
 */
VAStatus vaMapBuffer (
    VADisplay dpy,
    VABufferID buf_id,	/* in */
    void **pbuf 	/* out */
);

/*
 * After client making changes to a mapped data store, it needs to
 * "Unmap" it to let the server know that the data is ready to be
 * consumed by the server
 */
VAStatus vaUnmapBuffer (
    VADisplay dpy,
    VABufferID buf_id	/* in */
);

/*
 * After this call, the buffer is deleted and this buffer_id is no longer valid
 * Only call this if the buffer is not going to be passed to vaRenderBuffer
 */
VAStatus vaDestroyBuffer (
    VADisplay dpy,
    VABufferID buffer_id
);

/*
Render (Decode) Pictures

A picture represents either a frame or a field.

The Begin/Render/End sequence sends the decode buffers to the server
*/

/*
 * Get ready to decode a picture to a target surface
 */
VAStatus vaBeginPicture (
    VADisplay dpy,
    VAContextID context,
    VASurfaceID render_target
);

/* 
 * Send decode buffers to the server.
 * Buffers are automatically destroyed afterwards
 */
VAStatus vaRenderPicture (
    VADisplay dpy,
    VAContextID context,
    VABufferID *buffers,
    int num_buffers
);

/* 
 * Make the end of rendering for a picture. 
 * The server should start processing all pending operations for this 
 * surface. This call is non-blocking. The client can start another 
 * Begin/Render/End sequence on a different render target.
 */
VAStatus vaEndPicture (
    VADisplay dpy,
    VAContextID context
);

/*

Synchronization 

*/

/* 
 * This function blocks until all pending operations on the render target
 * have been completed.  Upon return it is safe to use the render target for a 
 * different picture. 
 */
VAStatus vaSyncSurface (
    VADisplay dpy,
    VAContextID context,
    VASurfaceID render_target
);

typedef enum
{
    VASurfaceRendering	= 0, /* Rendering in progress */ 
    VASurfaceDisplaying	= 1, /* Displaying in progress (not safe to render into it) */ 
                             /* this status is useful if surface is used as the source */
                             /* of an overlay */
    VASurfaceReady	= 2  /* not being rendered or displayed */
} VASurfaceStatus;

/*
 * Find out any pending ops on the render target 
 */
VAStatus vaQuerySurfaceStatus (
    VADisplay dpy,
    VASurfaceID render_target,
    VASurfaceStatus *status	/* out */
);

/*
 * Images and Subpictures
 * VAImage is used to either get the surface data to client memory, or 
 * to copy image data in client memory to a surface. 
 * Both images, subpictures and surfaces follow the same 2D coordinate system where origin 
 * is at the upper left corner with positive X to the right and positive Y down
 */
#define MAKEFOURCC(ch0, ch1, ch2, ch3) \
    ((unsigned long)(unsigned char) (ch0) | ((unsigned long)(unsigned char) (ch1) << 8) | \
    ((unsigned long)(unsigned char) (ch2) << 16) | ((unsigned long)(unsigned char) (ch3) << 24 ))

/* a few common FourCCs */
#define VA_FOURCC_NV12		0x3231564E
#define VA_FOURCC_AI44		0x34344149
#define VA_FOURCC_RGBA		0x41424752

/* byte order */
#define VA_LSB_FIRST		1
#define VA_MSB_FIRST		2

typedef struct _VAImageFormat
{
    unsigned int	fourcc;
    unsigned int	byte_order; /* VA_LSB_FIRST, VA_MSB_FIRST */
    unsigned int	bits_per_pixel;
    /* for RGB formats */
    unsigned int	depth; /* significant bits per pixel */
    unsigned int	red_mask;
    unsigned int	green_mask;
    unsigned int	blue_mask;
    unsigned int	alpha_mask;
} VAImageFormat;

typedef VAGenericID VAImageID;

typedef struct _VAImage
{
    VAImageID		image_id; /* uniquely identify this image */
    VAImageFormat	format;
    VABufferID		buf;	/* image data buffer */
    /*
     * Image data will be stored in a buffer of type VAImageBufferType to facilitate
     * data store on the server side for optimal performance. The buffer will be 
     * created by the CreateImage function, and proper storage allocated based on the image
     * size and format. This buffer is managed by the library implementation, and 
     * accessed by the client through the buffer Map/Unmap functions.
     */
    unsigned short	width; 
    unsigned short	height;
    unsigned int	data_size;
    unsigned int	num_planes;	/* can not be greater than 3 */
    /* 
     * An array indicating the scanline pitch in bytes for each plane.
     * Each plane may have a different pitch. Maximum 3 planes for planar formats
     */
    unsigned int	pitches[3];
    /* 
     * An array indicating the byte offset from the beginning of the image data 
     * to the start of each plane.
     */
    unsigned int	offsets[3];

    /* The following fields are only needed for paletted formats */
    int num_palette_entries;   /* set to zero for non-palette images */
    /* 
     * Each component is one byte and entry_bytes indicates the number of components in 
     * each entry (eg. 3 for YUV palette entries). set to zero for non-palette images   
     */
    int entry_bytes; 
    /*
     * An array of ascii characters describing the order of the components within the bytes.
     * Only entry_bytes characters of the string are used.
     */
    char component_order[4];
} VAImage;

/* Get maximum number of image formats supported by the implementation */
int vaMaxNumImageFormats (
    VADisplay dpy
);

/* 
 * Query supported image formats 
 * The caller must provide a "format_list" array that can hold at
 * least vaMaxNumImageFormats() entries. The actual number of formats
 * returned in "format_list" is returned in "num_formats".
 */
VAStatus vaQueryImageFormats (
    VADisplay dpy,
    VAImageFormat *format_list,	/* out */
    int *num_formats		/* out */
);

/* 
 * Create a VAImage structure
 * The width and height fields returned in the VAImage structure may get 
 * enlarged for some YUV formats. Upon return from this function, 
 * image->buf has been created and proper storage allocated by the library. 
 * The client can access the image through the Map/Unmap calls.
 */
VAStatus vaCreateImage (
    VADisplay dpy,
    VAImageFormat *format,
    int width,
    int height,
    VAImage *image	/* out */
);

/*
 * Should call DestroyImage before destroying the surface it is bound to
 */
VAStatus vaDestroyImage (
    VADisplay dpy,
    VAImageID image
);

VAStatus vaSetImagePalette (
    VADisplay dpy,
    VAImageID image,
    /* 
     * pointer to an array holding the palette data.  The size of the array is 
     * num_palette_entries * entry_bytes in size.  The order of the components 
     * in the palette is described by the component_order in VAImage struct    
     */
    unsigned char *palette 
);

/*
 * Retrive surface data into a VAImage
 * Image must be in a format supported by the implementation
 */
VAStatus vaGetImage (
    VADisplay dpy,
    VASurfaceID surface,
    int x,	/* coordinates of the upper left source pixel */
    int y,
    unsigned int width, /* width and height of the region */
    unsigned int height,
    VAImageID image
);

/*
 * Copy data from a VAImage to a surface
 * Image must be in a format supported by the implementation
 * Returns a VA_STATUS_ERROR_SURFACE_BUSY if the surface
 * shouldn't be rendered into when this is called
 * The source and destionation width and height are the same and
 * no scaling is performed with this operation.
 */
VAStatus vaPutImage (
    VADisplay dpy,
    VASurfaceID surface,
    VAImageID image,
    int src_x,
    int src_y,
    unsigned int width,
    unsigned int height,
    int dest_x,
    int dest_y
);

 /*
 * Similar to vaPutImage but with additional destination width
 * and height arguments to enable scaling
 */
VAStatus vaPutImage2 (
    VADisplay dpy,
    VASurfaceID surface,
    VAImageID image,
    int src_x,
    int src_y,
    unsigned int src_width,
    unsigned int src_height,
    int dest_x,
    int dest_y,
    unsigned int dest_width,
    unsigned int dest_height
);

/*
 * Derive an VAImage from an existing surface.
 * This interface will derive a VAImage and corresponding image buffer from
 * an existing VA Surface. The image buffer can then be mapped/unmapped for
 * direct CPU access. This operation is only possible on implementations with
 * direct rendering capabilities and internal surface formats that can be
 * represented with a VAImage. When the operation is not possible this interface
 * will return VA_STATUS_ERROR_OPERATION_FAILED. Clients should then fall back
 * to using vaCreateImage + vaPutImage to accomplish the same task in an
 * indirect manner.
 *
 * Implementations should only return success when the resulting image buffer
 * would be useable with vaMap/Unmap.
 *
 * When directly accessing a surface special care must be taken to insure
 * proper synchronization with the graphics hardware. Clients should call
 * vaQuerySurfaceStatus to insure that a surface is not the target of concurrent
 * rendering or currently being displayed by an overlay.
 *
 * Additionally nothing about the contents of a surface should be assumed
 * following a vaPutSurface. Implementations are free to modify the surface for
 * scaling or subpicture blending within a call to vaPutImage.
 *
 * Calls to vaPutImage or vaGetImage using the same surface from which the image
 * has been derived will return VA_STATUS_ERROR_SURFACE_BUSY. vaPutImage or
 * vaGetImage with other surfaces is supported.
 *
 * An image created with vaDeriveImage should be freed with vaDestroyImage. The
 * image and image buffer structures will be destroyed; however, the underlying
 * surface will remain unchanged until freed with vaDestroySurfaces.
 */
VAStatus vaDeriveImage (
    VADisplay dpy,
    VASurfaceID surface,
    VAImage *image	/* out */
);



/*
 * Subpictures 
 * Subpicture is a special type of image that can be blended 
 * with a surface during vaPutSurface(). Subpicture can be used to render
 * DVD sub-titles or closed captioning text etc.  
 */

typedef VAGenericID VASubpictureID;

/* Get maximum number of subpicture formats supported by the implementation */
int vaMaxNumSubpictureFormats (
    VADisplay dpy
);

/* flags for subpictures */
#define VA_SUBPICTURE_CHROMA_KEYING	0x0001
#define VA_SUBPICTURE_GLOBAL_ALPHA	0x0002
/* 
 * Query supported subpicture formats 
 * The caller must provide a "format_list" array that can hold at
 * least vaMaxNumSubpictureFormats() entries. The flags arrary holds the flag 
 * for each format to indicate additional capabilities for that format. The actual 
 * number of formats returned in "format_list" is returned in "num_formats".
 *  flags: returned value to indicate addtional capabilities
 *         VA_SUBPICTURE_CHROMA_KEYING - supports chroma-keying
 *         VA_SUBPICTURE_GLOBAL_ALPHA - supports global alpha  
 */
VAStatus vaQuerySubpictureFormats (
    VADisplay dpy,
    VAImageFormat *format_list,	/* out */
    unsigned int *flags,	/* out */
    unsigned int *num_formats	/* out */
);

/* 
 * Subpictures are created with an image associated. 
 */
VAStatus vaCreateSubpicture (
    VADisplay dpy,
    VAImageID image,
    VASubpictureID *subpicture	/* out */
);

/*
 * Destroy the subpicture before destroying the image it is assocated to
 */
VAStatus vaDestroySubpicture (
    VADisplay dpy,
    VASubpictureID subpicture
);

/* 
 * Bind an image to the subpicture. This image will now be associated with 
 * the subpicture instead of the one at creation.
 */
VAStatus vaSetSubpictureImage (
    VADisplay dpy,
    VASubpictureID subpicture,
    VAImageID image
);

/*
 * If chromakey is enabled, then the area where the source value falls within
 * the chromakey [min, max] range is transparent
 * The chromakey component format is the following:
 *  For RGB: [0:7] Red [8:15] Blue [16:23] Green   
 *  For YUV: [0:7] V [8:15] U [16:23] Y
 * The chromakey mask can be used to mask out certain components for chromakey
 * comparision
 */
VAStatus vaSetSubpictureChromakey (
    VADisplay dpy,
    VASubpictureID subpicture,
    unsigned int chromakey_min,
    unsigned int chromakey_max,
    unsigned int chromakey_mask
);

/*
 * Global alpha value is between 0 and 1. A value of 1 means fully opaque and 
 * a value of 0 means fully transparent. If per-pixel alpha is also specified then
 * the overall alpha is per-pixel alpha multiplied by the global alpha
 */
VAStatus vaSetSubpictureGlobalAlpha (
    VADisplay dpy,
    VASubpictureID subpicture,
    float global_alpha 
);

/*
 * vaAssociateSubpicture associates the subpicture with target_surfaces.
 * It defines the region mapping between the subpicture and the target  
 * surfaces through source and destination rectangles (with the same width and height).
 * Both will be displayed at the next call to vaPutSurface.  Additional
 * associations before the call to vaPutSurface simply overrides the association.
 */
VAStatus vaAssociateSubpicture (
    VADisplay dpy,
    VASubpictureID subpicture,
    VASurfaceID *target_surfaces,
    int num_surfaces,
    short src_x, /* upper left offset in subpicture */
    short src_y,
    short dest_x, /* upper left offset in surface */
    short dest_y,
    unsigned short width,
    unsigned short height,
    /*
     * whether to enable chroma-keying or global-alpha
     * see VA_SUBPICTURE_XXX values
     */
    unsigned int flags
);

/*
 * Similar to vaAssociateSubpicture but with additional destination width
 * and height to enable scaling
 */
VAStatus vaAssociateSubpicture2 (
    VADisplay dpy,
    VASubpictureID subpicture,
    VASurfaceID *target_surfaces,
    int num_surfaces,
    short src_x, /* upper left offset in subpicture */
    short src_y,
    unsigned short src_width,
    unsigned short src_height,
    short dest_x, /* upper left offset in surface */
    short dest_y,
    unsigned short dest_width,
    unsigned short dest_height,
    /*
     * whether to enable chroma-keying or global-alpha
     * see VA_SUBPICTURE_XXX values
     */
    unsigned int flags
);

/*
 * vaDeassociateSubpicture removes the association of the subpicture with target_surfaces.
 */
VAStatus vaDeassociateSubpicture (
    VADisplay dpy,
    VASubpictureID subpicture,
    VASurfaceID *target_surfaces,
    int num_surfaces
);

typedef struct _VARectangle
{
    short x;
    short y;
    unsigned short width;
    unsigned short height;
} VARectangle;

/*
 * Display attributes
 * Display attributes are used to control things such as contrast, hue, saturation,
 * brightness etc. in the rendering process.  The application can query what
 * attributes are supported by the driver, and then set the appropriate attributes
 * before calling vaPutSurface()
 */

/* Currently defined display attribute types */
typedef enum
{
    VADisplayAttribBrightness		= 0,
    VADisplayAttribContrast		= 1,
    VADisplayAttribHue			= 2,
    VADisplayAttribSaturation		= 3,
    /* client can specifiy a background color for the target window */
    VADisplayAttribBackgroundColor      = 4,
    /*
     * this is a gettable only attribute. For some implementations that use the
     * hardware overlay, after PutSurface is called, the surface can not be    
     * re-used until after the subsequent PutSurface call. If this is the case 
     * then the value for this attribute will be set to 1 so that the client   
     * will not attempt to re-use the surface right after returning from a call
     * to PutSurface.
     */
    VADisplayAttribDirectSurface       = 5,
} VADisplayAttribType;

/* flags for VADisplayAttribute */
#define VA_DISPLAY_ATTRIB_NOT_SUPPORTED	0x0000
#define VA_DISPLAY_ATTRIB_GETTABLE	0x0001
#define VA_DISPLAY_ATTRIB_SETTABLE	0x0002

typedef struct _VADisplayAttribute
{
    VADisplayAttribType type;
    int min_value;
    int max_value;
    int value;	/* used by the set/get attribute functions */
/* flags can be VA_DISPLAY_ATTRIB_GETTABLE or VA_DISPLAY_ATTRIB_SETTABLE or OR'd together */
    unsigned int flags;
} VADisplayAttribute;

/* Get maximum number of display attributs supported by the implementation */
int vaMaxNumDisplayAttributes (
    VADisplay dpy
);

/* 
 * Query display attributes 
 * The caller must provide a "attr_list" array that can hold at
 * least vaMaxNumDisplayAttributes() entries. The actual number of attributes
 * returned in "attr_list" is returned in "num_attributes".
 */
VAStatus vaQueryDisplayAttributes (
    VADisplay dpy,
    VADisplayAttribute *attr_list,	/* out */
    int *num_attributes			/* out */
);

/* 
 * Get display attributes 
 * This function returns the current attribute values in "attr_list".
 * Only attributes returned with VA_DISPLAY_ATTRIB_GETTABLE set in the "flags" field
 * from vaQueryDisplayAttributes() can have their values retrieved.  
 */
VAStatus vaGetDisplayAttributes (
    VADisplay dpy,
    VADisplayAttribute *attr_list,	/* in/out */
    int num_attributes
);

/* 
 * Set display attributes 
 * Only attributes returned with VA_DISPLAY_ATTRIB_SETTABLE set in the "flags" field
 * from vaQueryDisplayAttributes() can be set.  If the attribute is not settable or 
 * the value is out of range, the function returns VA_STATUS_ERROR_ATTR_NOT_SUPPORTED
 */
VAStatus vaSetDisplayAttributes (
    VADisplay dpy,
    VADisplayAttribute *attr_list,
    int num_attributes
);

#ifdef __cplusplus
}
#endif

#endif /* _VA_H_ */

#if 0
/*****************************************************************************/ 

Sample Program (w/ pseudo code)

Mostly to demonstrate program flow with no error handling ...

/*****************************************************************************/

	/* MPEG-2 VLD decode for a 720x480 frame */

	int major_ver, minor_ver;
	vaInitialize(dpy, &major_ver, &minor_ver);

	int max_num_profiles, max_num_entrypoints, max_num_attribs;
	max_num_profiles = vaMaxNumProfiles(dpy);
	max_num_entrypoints = vaMaxNumEntrypoints(dpy);
	max_num_attribs = vaMaxNumAttributes(dpy);

	/* find out whether MPEG2 MP is supported */
	VAProfile *profiles = malloc(sizeof(VAProfile)*max_num_profiles);
	int num_profiles;
	vaQueryConfigProfiles(dpy, profiles, &profiles);
	/*
	 * traverse "profiles" to locate the one that matches VAProfileMPEG2Main
         */ 

	/* now get the available entrypoints for MPEG2 MP */
	VAEntrypoint *entrypoints = malloc(sizeof(VAEntrypoint)*max_num_entrypoints);
	int num_entrypoints;
	vaQueryConfigEntrypoints(dpy, VAProfileMPEG2Main, entrypoints, &num_entrypoints);

	/* traverse "entrypoints" to see whether VLD is there */

	/* Assuming finding VLD, find out the format for the render target */
	VAConfigAttrib attrib;
	attrib.type = VAConfigAttribRTFormat;
	vaGetConfigAttributes(dpy, VAProfileMPEG2Main, VAEntrypointVLD,
                                &attrib, 1);

	if (attrib.value & VA_RT_FORMAT_YUV420)
		/* Found desired RT format, keep going */ 

	VAConfigID config_id;
	vaCreateConfig(dpy, VAProfileMPEG2Main, VAEntrypointVLD, &attrib, 1,
                       &config_id);

	/* 
         * create surfaces for the current target as well as reference frames
	 * we can get by with 4 surfaces for MPEG-2
	 */
	VASurfaceID surfaces[4];
	vaCreateSurfaces(dpy, 720, 480, VA_RT_FORMAT_YUV420, 4, surfaces);

	/* 
         * Create a context for this decode pipe
	 */
	VAContextID context;
	vaCreateContext(dpy, config_id, 720, 480, VA_PROGRESSIVE, surfaces,
                        4, &context);

	/* Create a picture parameter buffer for this frame */
	VABufferID picture_buf;
	VAPictureParameterBufferMPEG2 *picture_param;
	vaCreateBuffer(dpy, context, VAPictureParameterBufferType, sizeof(VAPictureParameterBufferMPEG2), 1, NULL, &picture_buf);
	vaMapBuffer(dpy, picture_buf, &picture_param);
	picture_param->horizontal_size = 720;
	picture_param->vertical_size = 480;
	picture_param->picture_coding_type = 1; /* I-frame */	
	/* fill in picture_coding_extension fields here */
	vaUnmapBuffer(dpy, picture_buf);

	/* Create an IQ matrix buffer for this frame */
	VABufferID iq_buf;
	VAIQMatrixBufferMPEG2 *iq_matrix;
	vaCreateBuffer(dpy, context, VAIQMatrixBufferType, sizeof(VAIQMatrixBufferMPEG2), 1, NULL, &iq_buf);
	vaMapBuffer(dpy, iq_buf, &iq_matrix);
	/* fill values for IQ_matrix here */
	vaUnmapBuffer(dpy, iq_buf);

	/* send the picture and IQ matrix buffers to the server */
	vaBeginPicture(dpy, context, surfaces[0]);

	vaRenderPicture(dpy, context, &picture_buf, 1);
	vaRenderPicture(dpy, context, &iq_buf, 1);

	/* 
         * Send slices in this frame to the server.
         * For MPEG-2, each slice is one row of macroblocks, and
         * we have 30 slices for a 720x480 frame 
         */
	for (int i = 1; i <= 30; i++) {

		/* Create a slice parameter buffer */
		VABufferID slice_param_buf;
		VASliceParameterBufferMPEG2 *slice_param;
		vaCreateBuffer(dpy, context, VASliceParameterBufferType, sizeof(VASliceParameterBufferMPEG2), 1, NULL, &slice_param_buf);
		vaMapBuffer(dpy, slice_param_buf, &slice_param);
		slice_param->slice_data_offset = 0;
		/* Let's say all slices in this bit-stream has 64-bit header */
		slice_param->macroblock_offset = 64; 
		slice_param->vertical_position = i;
		/* set up the rest based on what is in the slice header ... */
		vaUnmapBuffer(dpy, slice_param_buf);

		/* send the slice parameter buffer */
		vaRenderPicture(dpy, context, &slice_param_buf, 1);

		/* Create a slice data buffer */
		unsigned char *slice_data;
		VABufferID slice_data_buf;
		vaCreateBuffer(dpy, context, VASliceDataBufferType, x /* decoder figure out how big */, 1, NULL, &slice_data_buf);
		vaMapBuffer(dpy, slice_data_buf, &slice_data);
		/* decoder fill in slice_data */
		vaUnmapBuffer(dpy, slice_data_buf);

		/* send the slice data buffer */
		vaRenderPicture(dpy, context, &slice_data_buf, 1);
	}

	/* all slices have been sent, mark the end for this frame */
	vaEndPicture(dpy, context);

	/* The following code demonstrates rendering a sub-title with the target surface */
	/* Find out supported Subpicture formats */
	VAImageFormat sub_formats[4];
        int num_formats;
	vaQuerySubpictureFormats(dpy, sub_formats, &num_formats);
        /* Assume that we find AI44 as a subpicture format in sub_formats[0] */
        VAImage sub_image;
	VASubpictureID subpicture;
        unsigned char *sub_data;
        /* create an image for the subtitle */
	vaCreateImage(dpy, sub_formats, 128, 16, &sub_image);
	vaMapBuffer(dpy, sub_image->buf, &sub_data);
        /* fill the image data */
        vaUnmapBuffer(dpy, sub_image->buf);
	vaCreateSubpicture(dpy, sub_image, &subpicture);
	unsigned char palette[3][16];
	/* fill the palette data */
	vaSetSubpicturePalette(dpy, subpicture, palette);
	vaAssociateSubpicture(dpy, subpicture, surfaces, 1, 0, 0, 296, 400, 128, 16);
	vaPutSurface(dpy, surfaces, win, 0, 0, 720, 480, 100, 100, 640, 480, NULL, 0, 0);
#endif