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/*
* Copyright (c) 2021, Alliance for Open Media. All rights reserved
*
* This source code is subject to the terms of the BSD 3-Clause Clear License
* and the Alliance for Open Media Patent License 1.0. If the BSD 3-Clause Clear
* License was not distributed with this source code in the LICENSE file, you
* can obtain it at aomedia.org/license/software-license/bsd-3-c-c/. If the
* Alliance for Open Media Patent License 1.0 was not distributed with this
* source code in the PATENTS file, you can obtain it at
* aomedia.org/license/patent-license/.
*/
/*!\file
* \brief Declares functions used in palette search.
*/
#ifndef AOM_AV1_ENCODER_PALETTE_H_
#define AOM_AV1_ENCODER_PALETTE_H_
#include "av1/common/blockd.h"
#ifdef __cplusplus
extern "C" {
#endif
struct AV1_COMP;
struct PICK_MODE_CONTEXT;
struct macroblock;
/*!\cond */
#define AV1_K_MEANS_RENAME(func, dim) func##_dim##dim
void AV1_K_MEANS_RENAME(av1_calc_indices, 1)(const int *data,
const int *centroids,
uint8_t *indices, int n, int k);
void AV1_K_MEANS_RENAME(av1_calc_indices, 2)(const int *data,
const int *centroids,
uint8_t *indices, int n, int k);
void AV1_K_MEANS_RENAME(av1_k_means, 1)(const int *data, int *centroids,
uint8_t *indices, int n, int k,
int max_itr);
void AV1_K_MEANS_RENAME(av1_k_means, 2)(const int *data, int *centroids,
uint8_t *indices, int n, int k,
int max_itr);
/*!\endcond */
/*!\brief Extended Palette Coding Flags */
typedef enum {
/*!\brief No extra palette flags. */
PALETTE_NO_FLAGS,
/*!\brief Identity row flag, all values are the same as first value*/
PALETTE_IDENTIY_ROW,
/*!\brief Line Copy flag, all values are the same as above line */
PALETTE_LINE_COPY
} palette_flag_t;
/*!\brief Calculates the cluster to which each data point belong.
*
* \ingroup palette_mode_search
* \param[in] data The data points whose cluster indices are
* to be computed. The data layout is
* NUM_DATA_POINTS X DATA_DIM.
* \param[in] centroids Pointer to the centroids. The data layout
* is NUM_CENTROIDS X DATA_DIM.
* \param[in] indices Pointer to store the computed indices.
* \param[in] n Number of data points.
* \param[in] k Number of clusters.
* \param[in] dim Data dimension.
*
* Returns nothing, but saves each data's cluster index in indices.
*/
static INLINE void av1_calc_indices(const int *data, const int *centroids,
uint8_t *indices, int n, int k, int dim) {
assert(n > 0);
assert(k > 0);
if (dim == 1) {
AV1_K_MEANS_RENAME(av1_calc_indices, 1)(data, centroids, indices, n, k);
} else if (dim == 2) {
AV1_K_MEANS_RENAME(av1_calc_indices, 2)(data, centroids, indices, n, k);
} else {
assert(0 && "Untemplated k means dimension");
}
}
/*!\brief Performs k-means cluster on the data.
*
* \ingroup palette_mode_search
* \param[in] data The data points to be clustered. The data
* layout is NUM_DATA_POINTS X DATA_DIM.
* \param[in] centroids Pointer to store the computed centroids.
* The data layout is
* NUM_CENTROIDS X DATA_DIM.
* \param[in] indices Pointer to store the computed indices. For
* each training data.
* \param[in] n Number of data points.
* \param[in] k Number of clusters.
* \param[in] dim Data dimension.
* \param[in] max_itr Maximum number of iterations to run.
*
* Returns nothing, but saves each cluster's centroid in centroids and
* each data's cluster index in indices.
*
* \attention The output centroids are rounded off to nearest integers.
*/
static INLINE void av1_k_means(const int *data, int *centroids,
uint8_t *indices, int n, int k, int dim,
int max_itr) {
assert(n > 0);
assert(k > 0);
if (dim == 1) {
AV1_K_MEANS_RENAME(av1_k_means, 1)(data, centroids, indices, n, k, max_itr);
} else if (dim == 2) {
AV1_K_MEANS_RENAME(av1_k_means, 2)(data, centroids, indices, n, k, max_itr);
} else {
assert(0 && "Untemplated k means dimension");
}
}
/*!\brief Removes duplicated centroid indices.
*
* \ingroup palette_mode_search
* \param[in] centroids A list of centroids index.
* \param[in] num_centroids Number of centroids.
*
* \return Returns the number of unique centroids and saves the unique centroids
* in beginning of the centroids array.
*
* \attention The centroids should be rounded to integers before calling this
* method.
*/
int av1_remove_duplicates(int *centroids, int num_centroids);
/*!\brief Checks what colors are in the color cache.
*
* \ingroup palette_mode_search
* \param[in] color_cache A cache of colors.
* \param[in] n_cache Number of colors in the cache.
* \param[in] colors New base colors.
* \param[in] n_colors Number of new colors.
* \param[in] cache_color_found Stores what cached colors are presented in
* colors.
* \param[in] out_cache_colors Stores what colors are not in the cache.
*
* \return Returns the number of colors that are not in cache. In addition,
* records whether each cache color is presented in colors in cache_color_found,
* and stores and stores the out of cache colors in out_cache_colors.
*/
int av1_index_color_cache(const uint16_t *color_cache, int n_cache,
const uint16_t *colors, int n_colors,
uint8_t *cache_color_found, int *out_cache_colors);
/*!\brief Gets the rate cost for each delta-encoding v palette.
*
* \ingroup palette_mode_search
* \param[in] pmi Struct that stores the palette mode info.
* \param[in] bit_depth Pixel bitdepth of the sequence.
* \param[in] zero_count Stores the number of zero deltas.
* \param[in] min_bits Minimum bits for the deltas. Sets to
* bit_depth - 4.
*
* \return Returns the number of bits used to transmit each v palette color
* delta and assigns zero_count with the number of deltas being 0.
*/
int av1_get_palette_delta_bits_v(const PALETTE_MODE_INFO *const pmi,
int bit_depth, int *zero_count, int *min_bits);
/*!\brief Gets the rate cost for transmitting luma palette color values.
*
* \ingroup palette_mode_search
* \param[in] pmi Struct that stores the palette mode info.
* \param[in] color_cache Color cache presented at the decoder.
* \param[in] n_cache Number of colors in the cache.
* \param[in] bit_depth Pixel bitdepth of the sequence.
*
* \return Returns the rate needed to transmit the palette. Note that this does
* not include the cost of transmitted the color map.
*/
int av1_palette_color_cost_y(const PALETTE_MODE_INFO *const pmi,
const uint16_t *color_cache, int n_cache,
int bit_depth);
/*!\brief Gets the rate cost for transmitting luma palette chroma values.
*
* \ingroup palette_mode_search
* \param[in] pmi Struct that stores the palette mode info.
* \param[in] color_cache Color cache presented at the decoder.
* \param[in] n_cache Number of colors in the cache.
* \param[in] bit_depth Pixel bitdepth of the sequence.
*
* \return Returns the rate needed to transmit the palette. Note that this does
* not include the cost of transmitted the color map.
*/
int av1_palette_color_cost_uv(const PALETTE_MODE_INFO *const pmi,
const uint16_t *color_cache, int n_cache,
int bit_depth);
/*!\brief Search for the best palette in the luma plane.
*
* \ingroup palette_mode_search
* \callergraph
* This function is used in both inter and intra frame coding.
*/
void av1_rd_pick_palette_intra_sby(
const struct AV1_COMP *cpi, struct macroblock *x, BLOCK_SIZE bsize,
int dc_mode_cost, MB_MODE_INFO *best_mbmi, uint8_t *best_palette_color_map,
int64_t *best_rd, int64_t *best_model_rd, int *rate, int *rate_tokenonly,
int64_t *distortion, int *skippable, int *beat_best_rd,
struct PICK_MODE_CONTEXT *ctx, uint8_t *best_blk_skip,
TX_TYPE *tx_type_map);
/*!\brief Search for the best palette in the chroma plane.
*
* \ingroup palette_mode_search
* \callergraph
* This function is used in both inter and intra frame coding.
*/
void av1_rd_pick_palette_intra_sbuv(const struct AV1_COMP *cpi,
struct macroblock *x, int dc_mode_cost,
uint8_t *best_palette_color_map,
MB_MODE_INFO *const best_mbmi,
int64_t *best_rd, int *rate,
int *rate_tokenonly, int64_t *distortion,
int *skippable);
/*!\brief Resets palette color map for chroma channels.
*/
void av1_restore_uv_color_map(const struct AV1_COMP *cpi, struct macroblock *x);
#ifdef __cplusplus
} // extern "C"
#endif
#endif // AOM_AV1_ENCODER_PALETTE_H_