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/*
* Copyright (c) 2016, Alliance for Open Media. All rights reserved
*
* This source code is subject to the terms of the BSD 2 Clause License and
* the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
* was not distributed with this source code in the LICENSE file, you can
* obtain it at www.aomedia.org/license/software. 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 www.aomedia.org/license/patent.
*/
#ifndef AOM_AV1_ENCODER_RDOPT_H_
#define AOM_AV1_ENCODER_RDOPT_H_
#include <stdbool.h>
#include "av1/common/blockd.h"
#include "av1/common/txb_common.h"
#include "av1/encoder/block.h"
#include "av1/encoder/context_tree.h"
#include "av1/encoder/encoder.h"
#include "av1/encoder/encodetxb.h"
#include "av1/encoder/rdopt_utils.h"
#ifdef __cplusplus
extern "C" {
#endif
#define COMP_TYPE_RD_THRESH_SCALE 11
#define COMP_TYPE_RD_THRESH_SHIFT 4
#define MAX_WINNER_MOTION_MODES 10
struct TileInfo;
struct macroblock;
struct RD_STATS;
// Returns the number of colors in 'src'.
int av1_count_colors(const uint8_t *src, int stride, int rows, int cols,
int *val_count);
// Same as av1_count_colors(), but for high-bitdepth mode.
int av1_count_colors_highbd(const uint8_t *src8, int stride, int rows, int cols,
int bit_depth, int *val_count);
static INLINE int av1_cost_skip_txb(MACROBLOCK *x, const TXB_CTX *const txb_ctx,
int plane, TX_SIZE tx_size) {
const TX_SIZE txs_ctx = get_txsize_entropy_ctx(tx_size);
const PLANE_TYPE plane_type = get_plane_type(plane);
const LV_MAP_COEFF_COST *const coeff_costs =
&x->coeff_costs[txs_ctx][plane_type];
return coeff_costs->txb_skip_cost[txb_ctx->txb_skip_ctx][1];
}
void av1_rd_pick_intra_mode_sb(const struct AV1_COMP *cpi, struct macroblock *x,
struct RD_STATS *rd_cost, BLOCK_SIZE bsize,
PICK_MODE_CONTEXT *ctx, int64_t best_rd);
unsigned int av1_get_sby_perpixel_variance(const struct AV1_COMP *cpi,
const struct buf_2d *ref,
BLOCK_SIZE bs);
unsigned int av1_high_get_sby_perpixel_variance(const struct AV1_COMP *cpi,
const struct buf_2d *ref,
BLOCK_SIZE bs, int bd);
void av1_rd_pick_inter_mode_sb(struct AV1_COMP *cpi,
struct TileDataEnc *tile_data,
struct macroblock *x, struct RD_STATS *rd_cost,
BLOCK_SIZE bsize, PICK_MODE_CONTEXT *ctx,
int64_t best_rd_so_far);
void av1_pick_intra_mode(AV1_COMP *cpi, MACROBLOCK *x, RD_STATS *rd_cost,
BLOCK_SIZE bsize, PICK_MODE_CONTEXT *ctx);
void av1_nonrd_pick_inter_mode_sb(struct AV1_COMP *cpi,
struct TileDataEnc *tile_data,
struct macroblock *x,
struct RD_STATS *rd_cost, BLOCK_SIZE bsize,
PICK_MODE_CONTEXT *ctx,
int64_t best_rd_so_far);
void av1_rd_pick_inter_mode_sb_seg_skip(
const struct AV1_COMP *cpi, struct TileDataEnc *tile_data,
struct macroblock *x, int mi_row, int mi_col, struct RD_STATS *rd_cost,
BLOCK_SIZE bsize, PICK_MODE_CONTEXT *ctx, int64_t best_rd_so_far);
// The best edge strength seen in the block, as well as the best x and y
// components of edge strength seen.
typedef struct {
uint16_t magnitude;
uint16_t x;
uint16_t y;
} EdgeInfo;
/** Returns an integer indicating the strength of the edge.
* 0 means no edge found, 556 is the strength of a solid black/white edge,
* and the number may range higher if the signal is even stronger (e.g., on a
* corner). high_bd is a bool indicating the source should be treated
* as a 16-bit array. bd is the bit depth.
*/
EdgeInfo av1_edge_exists(const uint8_t *src, int src_stride, int w, int h,
bool high_bd, int bd);
/** Applies a Gaussian blur with sigma = 1.3. Used by av1_edge_exists and
* tests.
*/
void av1_gaussian_blur(const uint8_t *src, int src_stride, int w, int h,
uint8_t *dst, bool high_bd, int bd);
/* Applies standard 3x3 Sobel matrix. */
typedef struct {
int16_t x;
int16_t y;
} sobel_xy;
sobel_xy av1_sobel(const uint8_t *input, int stride, int i, int j,
bool high_bd);
void av1_inter_mode_data_init(struct TileDataEnc *tile_data);
void av1_inter_mode_data_fit(TileDataEnc *tile_data, int rdmult);
#if !CONFIG_REALTIME_ONLY
static INLINE int coded_to_superres_mi(int mi_col, int denom) {
return (mi_col * denom + SCALE_NUMERATOR / 2) / SCALE_NUMERATOR;
}
#endif
static INLINE int av1_encoder_get_relative_dist(const OrderHintInfo *oh, int a,
int b) {
if (!oh->enable_order_hint) return 0;
assert(a >= 0 && b >= 0);
return (a - b);
}
// This function will return number of mi's in a superblock.
static INLINE int av1_get_sb_mi_size(const AV1_COMMON *const cm) {
const int mi_alloc_size_1d = mi_size_wide[cm->mi_params.mi_alloc_bsize];
int sb_mi_rows =
(mi_size_wide[cm->seq_params.sb_size] + mi_alloc_size_1d - 1) /
mi_alloc_size_1d;
assert(mi_size_wide[cm->seq_params.sb_size] ==
mi_size_high[cm->seq_params.sb_size]);
int sb_mi_size = sb_mi_rows * sb_mi_rows;
return sb_mi_size;
}
// This function will copy usable ref_mv_stack[ref_frame][4] and
// weight[ref_frame][4] information from ref_mv_stack[ref_frame][8] and
// weight[ref_frame][8].
static INLINE void av1_copy_usable_ref_mv_stack_and_weight(
const MACROBLOCKD *xd, MB_MODE_INFO_EXT *const mbmi_ext,
MV_REFERENCE_FRAME ref_frame) {
memcpy(mbmi_ext->weight[ref_frame], xd->weight[ref_frame],
USABLE_REF_MV_STACK_SIZE * sizeof(xd->weight[0][0]));
memcpy(mbmi_ext->ref_mv_stack[ref_frame], xd->ref_mv_stack[ref_frame],
USABLE_REF_MV_STACK_SIZE * sizeof(xd->ref_mv_stack[0][0]));
}
// This function prunes the mode if either of the reference frame falls in the
// pruning list
static INLINE int prune_ref(const MV_REFERENCE_FRAME *const ref_frame,
const OrderHintInfo *const order_hint_info,
const unsigned int *const ref_display_order_hint,
const unsigned int frame_display_order_hint,
const int *ref_frame_list) {
for (int i = 0; i < 2; i++) {
if (ref_frame_list[i] == NONE_FRAME) continue;
if (ref_frame[0] == ref_frame_list[i] ||
ref_frame[1] == ref_frame_list[i]) {
if (av1_encoder_get_relative_dist(
order_hint_info,
ref_display_order_hint[ref_frame_list[i] - LAST_FRAME],
frame_display_order_hint) < 0)
return 1;
}
}
return 0;
}
static INLINE int prune_ref_by_selective_ref_frame(
const AV1_COMP *const cpi, const MACROBLOCK *const x,
const MV_REFERENCE_FRAME *const ref_frame,
const unsigned int *const ref_display_order_hint) {
const SPEED_FEATURES *const sf = &cpi->sf;
if (!sf->inter_sf.selective_ref_frame) return 0;
const AV1_COMMON *const cm = &cpi->common;
const OrderHintInfo *const order_hint_info = &cm->seq_params.order_hint_info;
const int comp_pred = ref_frame[1] > INTRA_FRAME;
if (sf->inter_sf.selective_ref_frame >= 2 ||
(sf->inter_sf.selective_ref_frame == 1 && comp_pred)) {
int ref_frame_list[2] = { LAST3_FRAME, LAST2_FRAME };
if (x != NULL) {
if (x->search_ref_frame[LAST3_FRAME]) ref_frame_list[0] = NONE_FRAME;
if (x->search_ref_frame[LAST2_FRAME]) ref_frame_list[1] = NONE_FRAME;
}
if (prune_ref(ref_frame, order_hint_info, ref_display_order_hint,
ref_display_order_hint[GOLDEN_FRAME - LAST_FRAME],
ref_frame_list))
return 1;
}
if (sf->inter_sf.selective_ref_frame >= 3) {
int ref_frame_list[2] = { ALTREF2_FRAME, BWDREF_FRAME };
if (x != NULL) {
if (x->search_ref_frame[ALTREF2_FRAME]) ref_frame_list[0] = NONE_FRAME;
if (x->search_ref_frame[BWDREF_FRAME]) ref_frame_list[1] = NONE_FRAME;
}
if (prune_ref(ref_frame, order_hint_info, ref_display_order_hint,
ref_display_order_hint[LAST_FRAME - LAST_FRAME],
ref_frame_list))
return 1;
}
return 0;
}
// This function will copy the best reference mode information from
// MB_MODE_INFO_EXT to MB_MODE_INFO_EXT_FRAME.
static INLINE void av1_copy_mbmi_ext_to_mbmi_ext_frame(
MB_MODE_INFO_EXT_FRAME *mbmi_ext_best,
const MB_MODE_INFO_EXT *const mbmi_ext, uint8_t ref_frame_type) {
memcpy(mbmi_ext_best->ref_mv_stack, mbmi_ext->ref_mv_stack[ref_frame_type],
sizeof(mbmi_ext->ref_mv_stack[USABLE_REF_MV_STACK_SIZE]));
memcpy(mbmi_ext_best->weight, mbmi_ext->weight[ref_frame_type],
sizeof(mbmi_ext->weight[USABLE_REF_MV_STACK_SIZE]));
mbmi_ext_best->mode_context = mbmi_ext->mode_context[ref_frame_type];
mbmi_ext_best->ref_mv_count = mbmi_ext->ref_mv_count[ref_frame_type];
memcpy(mbmi_ext_best->global_mvs, mbmi_ext->global_mvs,
sizeof(mbmi_ext->global_mvs));
}
#ifdef __cplusplus
} // extern "C"
#endif
#endif // AOM_AV1_ENCODER_RDOPT_H_