uvg266/src/kvazaar.h

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#ifndef KVAZAAR_H_
#define KVAZAAR_H_
/*****************************************************************************
* This file is part of Kvazaar HEVC encoder.
*
* Copyright (C) 2013-2015 Tampere University of Technology and others (see
* COPYING file).
*
* Kvazaar is free software: you can redistribute it and/or modify it under
* the terms of the GNU Lesser General Public License as published by the
* Free Software Foundation; either version 2.1 of the License, or (at your
* option) any later version.
*
* Kvazaar is distributed in the hope that it will be useful, but WITHOUT ANY
* WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
* FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along
* with Kvazaar. If not, see <http://www.gnu.org/licenses/>.
****************************************************************************/
/**
* \ingroup Control
* \file
* This file defines the public API of Kvazaar when used as a library.
*/
#include <stdint.h>
#ifdef __cplusplus
extern "C" {
#endif
#if defined(KVZ_DLL_EXPORTS)
#if !defined(PIC)
// Building static kvazaar library.
#define KVZ_PUBLIC
#elif defined(_WIN32) || defined(__CYGWIN__)
// Building kvazaar DLL on Windows.
#define KVZ_PUBLIC __declspec(dllexport)
#elif defined(__GNUC__)
// Building kvazaar shared library with GCC.
#define KVZ_PUBLIC __attribute__ ((visibility ("default")))
#else
#define KVZ_PUBLIC
#endif
#else
#if defined(KVZ_STATIC_LIB)
// Using static kvazaar library.
#define KVZ_PUBLIC
#elif defined(_WIN32) || defined(__CYGWIN__)
// Using kvazaar DLL on Windows.
#define KVZ_PUBLIC __declspec(dllimport)
#else
// Using kvazaar shared library and not on Windows.
#define KVZ_PUBLIC
#endif
#endif
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/**
* Maximum length of a GoP structure.
*/
#define KVZ_MAX_GOP_LENGTH 32
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/**
* Maximum amount of GoP layers.
*/
#define KVZ_MAX_GOP_LAYERS 6
/**
* Size of data chunks.
*/
#define KVZ_DATA_CHUNK_SIZE 4096
#define KVZ_BIT_DEPTH 8
#if KVZ_BIT_DEPTH == 8
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typedef uint8_t kvz_pixel;
#else
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typedef uint16_t kvz_pixel;
#endif
/**
* \brief Opaque data structure representing one instance of the encoder.
*/
typedef struct kvz_encoder kvz_encoder;
/**
* \brief Integer motion estimation algorithms.
*/
enum kvz_ime_algorithm {
KVZ_IME_HEXBS = 0,
KVZ_IME_TZ = 1,
KVZ_IME_FULL = 2,
KVZ_IME_FULL8 = 3, //! \since 3.6.0
KVZ_IME_FULL16 = 4, //! \since 3.6.0
KVZ_IME_FULL32 = 5, //! \since 3.6.0
KVZ_IME_FULL64 = 6, //! \since 3.6.0
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KVZ_IME_DIA = 7, // Experimental. TODO: change into a proper doc comment
};
/**
* \brief Interlacing methods.
* \since 3.2.0
*/
enum kvz_interlacing
{
KVZ_INTERLACING_NONE = 0,
KVZ_INTERLACING_TFF = 1, // top field first
KVZ_INTERLACING_BFF = 2, // bottom field first
};
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/**
* \brief Constrain movement vectors.
* \since 3.3.0
*/
enum kvz_mv_constraint
{
KVZ_MV_CONSTRAIN_NONE = 0,
KVZ_MV_CONSTRAIN_FRAME = 1, // Don't refer outside the frame.
KVZ_MV_CONSTRAIN_TILE = 2, // Don't refer to other tiles.
KVZ_MV_CONSTRAIN_FRAME_AND_TILE = 3, // Don't refer outside the tile.
KVZ_MV_CONSTRAIN_FRAME_AND_TILE_MARGIN = 4, // Keep enough margin for fractional pixel margins not to refer outside the tile.
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};
/**
* \brief Constrain movement vectors.
* \since 3.5.0
*/
enum kvz_hash
{
KVZ_HASH_NONE = 0,
KVZ_HASH_CHECKSUM = 1,
KVZ_HASH_MD5 = 2,
};
/**
* \brief cu split termination mode
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* \since since 3.8.0
*/
enum kvz_cu_split_termination
{
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KVZ_CU_SPLIT_TERMINATION_ZERO = 0,
KVZ_CU_SPLIT_TERMINATION_OFF = 1
};
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/**
* \brief Enable and disable crypto features.
* \since 3.7.0
*/
enum kvz_crypto_features {
KVZ_CRYPTO_OFF = 0,
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KVZ_CRYPTO_MVs = (1 << 0),
KVZ_CRYPTO_MV_SIGNS = (1 << 1),
KVZ_CRYPTO_TRANSF_COEFFS = (1 << 2),
KVZ_CRYPTO_TRANSF_COEFF_SIGNS = (1 << 3),
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KVZ_CRYPTO_INTRA_MODE = (1 << 4),
KVZ_CRYPTO_ON = (1 << 5) - 1,
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};
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/**
* \brief me early termination mode
* \since since 3.8.0
*/
enum kvz_me_early_termination
{
KVZ_ME_EARLY_TERMINATION_OFF = 0,
KVZ_ME_EARLY_TERMINATION_ON = 1,
KVZ_ME_EARLY_TERMINATION_SENSITIVE = 2
};
/**
* \brief Format the pixels are read in.
* This is separate from chroma subsampling, because we might want to read
* interleaved formats in the future.
* \since 3.12.0
*/
enum kvz_input_format {
KVZ_FORMAT_P400 = 0,
KVZ_FORMAT_P420 = 1,
KVZ_FORMAT_P422 = 2,
KVZ_FORMAT_P444 = 3,
};
/**
* \brief Chroma subsampling format used for encoding.
* \since 3.12.0
*/
enum kvz_chroma_format {
KVZ_CSP_400 = 0,
KVZ_CSP_420 = 1,
KVZ_CSP_422 = 2,
KVZ_CSP_444 = 3,
};
/**
* \brief Chroma subsampling format used for encoding.
* \since 3.15.0
*/
enum kvz_slices {
KVZ_SLICES_NONE,
KVZ_SLICES_TILES = (1 << 0), /*!< \brief Put each tile in a slice. */
KVZ_SLICES_WPP = (1 << 1), /*!< \brief Put each row in a slice. */
};
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enum kvz_sao {
KVZ_SAO_OFF = 0,
KVZ_SAO_EDGE = 1,
KVZ_SAO_BAND = 2,
KVZ_SAO_FULL = 3
};
enum kvz_scalinglist {
KVZ_SCALING_LIST_OFF = 0,
KVZ_SCALING_LIST_CUSTOM = 1,
KVZ_SCALING_LIST_DEFAULT = 2,
};
enum kvz_rc_algorithm
{
KVZ_NO_RC = 0,
KVZ_LAMBDA = 1,
KVZ_OBA = 2,
};
// Map from input format to chroma format.
#define KVZ_FORMAT2CSP(format) ((enum kvz_chroma_format)"\0\1\2\3"[format])
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/**
* \brief GoP picture configuration.
*/
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typedef struct kvz_gop_config {
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double qp_factor;
int8_t qp_offset; /*!< \brief QP offset */
int8_t poc_offset; /*!< \brief POC offset */
int8_t layer; /*!< \brief Current layer */
int8_t is_ref; /*!< \brief Flag if this picture is used as a reference */
int8_t ref_pos_count;/*!< \brief Reference picture count */
int8_t ref_pos[16]; /*!< \brief reference picture offset list */
int8_t ref_neg_count;/*!< \brief Reference picture count */
int8_t ref_neg[16]; /*!< \brief reference picture offset list */
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} kvz_gop_config;
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/**
* \brief Struct which contains all configuration data
*
* Functions config_alloc, config_init and config_destroy must be used to
* maintain ABI compatibility. Do not copy this struct, as the size might
* change.
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*/
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typedef struct kvz_config
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{
int32_t qp; /*!< \brief Quantization parameter */
int32_t intra_period; /*!< \brief the period of intra frames in stream */
/** \brief How often the VPS, SPS and PPS are re-sent
*
* -1: never
* 0: first frame only
* 1: every intra frame
* 2: every other intra frame
* 3: every third intra frame
* and so on
*/
int32_t vps_period;
int32_t width; /*!< \brief frame width, must be a multiple of 8 */
int32_t height; /*!< \brief frame height, must be a multiple of 8 */
double framerate; /*!< \brief Deprecated, will be removed. */
int32_t framerate_num; /*!< \brief Framerate numerator */
int32_t framerate_denom; /*!< \brief Framerate denominator */
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int32_t deblock_enable; /*!< \brief Flag to enable deblocking filter */
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enum kvz_sao sao_type; /*!< \brief Flag to enable sample adaptive offset filter */
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int32_t rdoq_enable; /*!< \brief Flag to enable RD optimized quantization. */
int32_t signhide_enable; /*!< \brief Flag to enable sign hiding. */
int32_t smp_enable; /*!< \brief Flag to enable SMP blocks. */
int32_t amp_enable; /*!< \brief Flag to enable AMP blocks. */
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int32_t rdo; /*!< \brief RD-calculation level (0..2) */
int32_t full_intra_search; /*!< \brief If true, don't skip modes in intra search. */
int32_t trskip_enable; /*!< \brief Flag to enable transform skip (for 4x4 blocks). */
int32_t tr_depth_intra; /*!< \brief Maximum transform depth for intra. */
enum kvz_ime_algorithm ime_algorithm; /*!< \brief Integer motion estimation algorithm. */
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int32_t fme_level; /*!< \brief Fractional pixel motion estimation level (0: disabled, 1: enabled). */
int8_t source_scan_type; /*!< \brief Source scan type (0: progressive, 1: top field first, 2: bottom field first).*/
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int32_t bipred; /*!< \brief Bi-prediction (0: disabled, 1: enabled). */
int32_t deblock_beta; /*!< \brief (deblocking) beta offset (div 2), range -6...6 */
int32_t deblock_tc; /*!< \brief (deblocking) tc offset (div 2), range -6...6 */
struct
{
int32_t sar_width; /*!< \brief the horizontal size of the sample aspect ratio (in arbitrary units) */
int32_t sar_height; /*!< \brief the vertical size of the sample aspect ratio (in the same arbitrary units as sar_width). */
int8_t overscan; /*!< \brief Crop overscan setting */
int8_t videoformat; /*!< \brief Video format */
int8_t fullrange; /*!< \brief Flag to indicate full-range */
int8_t colorprim; /*!< \brief Color primaries */
int8_t transfer; /*!< \brief Transfer characteristics */
int8_t colormatrix; /*!< \brief Color matrix coefficients */
int32_t chroma_loc; /*!< \brief Chroma sample location */
} vui;
int32_t aud_enable; /*!< \brief Flag to use access unit delimiters */
int32_t ref_frames; /*!< \brief number of reference frames to use */
char * cqmfile; /*!< \brief Pointer to custom quantization matrices filename */
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int32_t tiles_width_count; /*!< \brief number of tiles separation in x direction */
int32_t tiles_height_count; /*!< \brief number of tiles separation in y direction */
int32_t* tiles_width_split; /*!< \brief tiles split x coordinates (dimension: tiles_width_count) */
int32_t* tiles_height_split; /*!< \brief tiles split y coordinates (dimension: tiles_height_count) */
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int wpp;
int owf;
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int32_t slice_count;
int32_t* slice_addresses_in_ts;
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int32_t threads;
int32_t cpuid;
struct {
int32_t min;
int32_t max;
} pu_depth_inter, pu_depth_intra;
int32_t add_encoder_info;
int8_t gop_len; /*!< \brief length of GOP for the video sequence */
int8_t gop_lowdelay; /*!< \brief specifies that the GOP does not use future pictures */
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kvz_gop_config gop[KVZ_MAX_GOP_LENGTH]; /*!< \brief Array of GOP settings */
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int32_t target_bitrate;
int8_t mv_rdo; /*!< \brief MV RDO calculation in search (0: estimation, 1: RDO). */
int8_t calc_psnr; /*!< \since 3.1.0 \brief Print PSNR in CLI. */
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enum kvz_mv_constraint mv_constraint; /*!< \since 3.3.0 \brief Constrain movement vectors. */
enum kvz_hash hash; /*!< \since 3.5.0 \brief What hash algorithm to use. */
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enum kvz_cu_split_termination cu_split_termination; /*!< \since 3.8.0 \brief Mode of cu split termination. */
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enum kvz_crypto_features crypto_features; /*!< \since 3.7.0 */
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uint8_t *optional_key;
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enum kvz_me_early_termination me_early_termination; /*!< \since 3.8.0 \brief Mode of me early termination. */
int32_t intra_rdo_et; /*!< \since 4.1.0 \brief Use early termination in intra rdo. */
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int32_t lossless; /*!< \brief Use lossless coding. */
int32_t tmvp_enable; /*!> \brief Use Temporal Motion Vector Predictors. */
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int32_t rdoq_skip; /*!< \brief Mode of rdoq skip */
enum kvz_input_format input_format; /*!< \brief Use Temporal Motion Vector Predictors. */
int32_t input_bitdepth; /*!< \brief Use Temporal Motion Vector Predictors. */
struct {
unsigned d; // depth
unsigned t; // temporal
} gop_lp_definition;
int32_t implicit_rdpcm; /*!< \brief Enable implicit residual DPCM. */
struct {
int32_t width;
int32_t height;
int8_t *dqps;
} roi; /*!< \since 3.14.0 \brief Map of delta QPs for region of interest coding. */
unsigned slices; /*!< \since 3.15.0 \brief How to map slices to frame. */
/**
* \brief Use adaptive QP for 360 video with equirectangular projection.
*/
int32_t erp_aqp;
/** \brief The HEVC level */
uint8_t level;
/** \brief Whether we ignore and just warn from all of the errors about the output not conforming to the level's requirements. */
uint8_t force_level;
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/** \brief Whether we use the high tier bitrates. Requires the level to be 4 or higher. */
uint8_t high_tier;
/** \brief The maximum allowed bitrate for this level and tier. */
uint32_t max_bitrate;
/** \brief Maximum steps that hexagonal and diagonal motion estimation can use. -1 to disable */
uint32_t me_max_steps;
/** \brief Minimum QP that uses CABAC for residual cost instead of a fast estimate. */
int8_t fast_residual_cost_limit;
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/** \brief Set QP at CU level keeping pic_init_qp_minus26 in PPS zero */
int8_t set_qp_in_cu;
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/** \brief Flag to enable/disable open GOP configuration */
int8_t open_gop;
/** \brief Type of scaling lists to use */
int8_t scaling_list;
/** \brief Maximum number of merge cadidates */
uint8_t max_merge;
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/** \brief Enable Early Skip Mode Decision */
uint8_t early_skip;
/** \brief Currently unused parameter for OBA rc */
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int8_t frame_allocation;
/** \brief used rc scheme, 0 for QP */
int8_t rc_algorithm;
/** \brief whether to use hadamard based bit allocation for intra frames or not */
uint8_t intra_bit_allocation;
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} kvz_config;
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/**
* \brief Struct which contains all picture data
*
* Function picture_alloc in kvz_api must be used for allocation.
*/
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typedef struct kvz_picture {
kvz_pixel *fulldata_buf; //!< \brief Allocated buffer with padding (only used in the base_image)
kvz_pixel *fulldata; //!< \brief Allocated buffer portion that's actually used
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kvz_pixel *y; //!< \brief Pointer to luma pixel array.
kvz_pixel *u; //!< \brief Pointer to chroma U pixel array.
kvz_pixel *v; //!< \brief Pointer to chroma V pixel array.
kvz_pixel *data[3]; //!< \brief Alternate access method to same data.
int32_t width; //!< \brief Luma pixel array width.
int32_t height; //!< \brief Luma pixel array height.
int32_t stride; //!< \brief Luma pixel array width for the full picture (should be used as stride)
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struct kvz_picture *base_image; //!< \brief Pointer to the picture which owns the pixels
int32_t refcount; //!< \brief Number of references to the picture
int64_t pts; //!< \brief Presentation timestamp. Should be set for input frames.
int64_t dts; //!< \brief Decompression timestamp.
enum kvz_interlacing interlacing; //!< \since 3.2.0 \brief Field order for interlaced pictures.
enum kvz_chroma_format chroma_format;
int32_t ref_pocs[16];
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} kvz_picture;
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/**
* \brief NAL unit type codes.
*
* These are the nal_unit_type codes from Table 7-1 ITU-T H.265 v1.0.
*/
enum kvz_nal_unit_type {
// Trailing pictures
KVZ_NAL_TRAIL_N = 0,
KVZ_NAL_TRAIL_R = 1,
KVZ_NAL_TSA_N = 2,
KVZ_NAL_TSA_R = 3,
KVZ_NAL_STSA_N = 4,
KVZ_NAL_STSA_R = 5,
// Leading pictures
KVZ_NAL_RADL_N = 6,
KVZ_NAL_RADL_R = 7,
KVZ_NAL_RASL_N = 8,
KVZ_NAL_RASL_R = 9,
// Reserved non-IRAP RSV_VCL_N/R 10-15
// Intra random access point pictures
KVZ_NAL_BLA_W_LP = 16,
KVZ_NAL_BLA_W_RADL = 17,
KVZ_NAL_BLA_N_LP = 18,
KVZ_NAL_IDR_W_RADL = 19,
KVZ_NAL_IDR_N_LP = 20,
KVZ_NAL_CRA_NUT = 21,
// Reserved IRAP
KVZ_NAL_RSV_IRAP_VCL22 = 22,
KVZ_NAL_RSV_IRAP_VCL23 = 23,
// Reserved non-IRAP RSV_VCL 24-32
// non-VCL
KVZ_NAL_VPS_NUT = 32,
KVZ_NAL_SPS_NUT = 33,
KVZ_NAL_PPS_NUT = 34,
KVZ_NAL_AUD_NUT = 35,
KVZ_NAL_EOS_NUT = 36,
KVZ_NAL_EOB_NUT = 37,
KVZ_NAL_FD_NUT = 38,
KVZ_NAL_PREFIX_SEI_NUT = 39,
KVZ_NAL_SUFFIX_SEI_NUT = 40,
// Reserved RSV_NVCL 41-47
// Unspecified UNSPEC 48-63
};
enum kvz_slice_type {
KVZ_SLICE_B = 0,
KVZ_SLICE_P = 1,
KVZ_SLICE_I = 2,
};
/**
* \brief Other information about an encoded frame
*/
typedef struct kvz_frame_info {
/**
* \brief Picture order count
*/
int32_t poc;
/**
* \brief Quantization parameter
*/
int8_t qp;
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/**
* \brief Type of the NAL VCL unit
*/
enum kvz_nal_unit_type nal_unit_type;
/**
* \brief Type of the slice
*/
enum kvz_slice_type slice_type;
/**
* \brief Reference picture lists
*
* The first list contains the reference picture POCs that are less than the
* POC of this frame and the second one contains those that are greater.
*/
int ref_list[2][16];
/**
* \brief Lengths of the reference picture lists
*/
int ref_list_len[2];
} kvz_frame_info;
/**
* \brief A linked list of chunks of data.
*
* Used for returning the encoded data.
*/
typedef struct kvz_data_chunk {
/// \brief Buffer for the data.
uint8_t data[KVZ_DATA_CHUNK_SIZE];
/// \brief Number of bytes filled in this chunk.
uint32_t len;
/// \brief Next chunk in the list.
struct kvz_data_chunk *next;
} kvz_data_chunk;
typedef struct kvz_api {
/**
* \brief Allocate a kvz_config structure.
*
* The returned structure should be deallocated by calling config_destroy.
*
* \return allocated config, or NULL if allocation failed.
*/
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kvz_config * (*config_alloc)(void);
/**
* \brief Deallocate a kvz_config structure.
*
* If cfg is NULL, do nothing. Otherwise, the given structure must have been
* returned from config_alloc.
*
* \param cfg configuration
* \return 1 on success, 0 on failure
*/
int (*config_destroy)(kvz_config *cfg);
/**
* \brief Initialize a config structure
*
* Set all fields in the given config to default values.
*
* \param cfg configuration
* \return 1 on success, 0 on failure
*/
int (*config_init)(kvz_config *cfg);
/**
* \brief Set an option.
*
* \param cfg configuration
* \param name name of the option to set
* \param value value to set
* \return 1 on success, 0 on failure
*/
int (*config_parse)(kvz_config *cfg, const char *name, const char *value);
/**
* \brief Allocate a kvz_picture.
*
* The returned kvz_picture should be deallocated by calling picture_free.
*
* \param width width of luma pixel array to allocate
* \param height height of luma pixel array to allocate
* \return allocated picture, or NULL if allocation failed.
*/
kvz_picture * (*picture_alloc)(int32_t width, int32_t height);
/**
* \brief Deallocate a kvz_picture.
*
* If pic is NULL, do nothing. Otherwise, the picture must have been returned
* from picture_alloc.
*/
void (*picture_free)(kvz_picture *pic);
/**
* \brief Deallocate a list of data chunks.
*
* Deallocates the given chunk and all chunks that follow it in the linked
* list.
*/
void (*chunk_free)(kvz_data_chunk *chunk);
/**
* \brief Create an encoder.
*
* The returned encoder should be closed by calling encoder_close.
*
* Only one encoder may be open at a time.
*
* \param cfg encoder configuration
* \return created encoder, or NULL if creation failed.
*/
kvz_encoder * (*encoder_open)(const kvz_config *cfg);
/**
* \brief Deallocate an encoder.
*
* If encoder is NULL, do nothing. Otherwise, the encoder must have been
* returned from encoder_open.
*/
void (*encoder_close)(kvz_encoder *encoder);
/**
* \brief Get parameter sets.
*
* Encode the VPS, SPS and PPS.
*
* If data_out is set to non-NULL values, the caller is responsible for
* calling chunk_free on it.
*
* A null pointer may be passed in place of the parameter data_out or len_out
* to skip returning the corresponding value.
*
* \param encoder encoder
* \param data_out Returns the encoded parameter sets.
* \param len_out Returns number of bytes in the encoded data.
* \return 1 on success, 0 on error.
*/
int (*encoder_headers)(kvz_encoder *encoder,
kvz_data_chunk **data_out,
uint32_t *len_out);
/**
* \brief Encode one frame.
*
* Add pic_in to the encoding pipeline. If an encoded frame is ready, return
* the bitstream, length of the bitstream, the reconstructed frame, the
* original frame and frame info in data_out, len_out, pic_out, src_out and
* info_out, respectively. Otherwise, set the output parameters to NULL.
*
* After passing all of the input frames, the caller should keep calling this
* function with pic_in set to NULL, until no more data is returned in the
* output parameters.
*
* The caller must not modify pic_in after passing it to this function.
*
* If data_out, pic_out and src_out are set to non-NULL values, the caller is
* responsible for calling chunk_free and picture_free on them.
*
* A null pointer may be passed in place of any of the parameters data_out,
* len_out, pic_out, src_out or info_out to skip returning the corresponding
* value.
*
* \param encoder encoder
* \param pic_in input frame or NULL
* \param data_out Returns the encoded data.
* \param len_out Returns number of bytes in the encoded data.
* \param pic_out Returns the reconstructed picture.
* \param src_out Returns the original picture.
* \param info_out Returns information about the encoded picture.
* \return 1 on success, 0 on error.
*/
int (*encoder_encode)(kvz_encoder *encoder,
kvz_picture *pic_in,
kvz_data_chunk **data_out,
uint32_t *len_out,
kvz_picture **pic_out,
kvz_picture **src_out,
kvz_frame_info *info_out);
/**
* \brief Allocate a kvz_picture.
*
* The returned kvz_picture should be deallocated by calling picture_free.
*
* \since 3.12.0
* \param chroma_fomat Chroma subsampling to use.
* \param width width of luma pixel array to allocate
* \param height height of luma pixel array to allocate
* \return allocated picture, or NULL if allocation failed.
*/
kvz_picture * (*picture_alloc_csp)(enum kvz_chroma_format chroma_fomat, int32_t width, int32_t height);
} kvz_api;
KVZ_PUBLIC const kvz_api * kvz_api_get(int bit_depth);
#ifdef __cplusplus
}
#endif
#endif // KVAZAAR_H_