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https://github.com/ultravideo/uvg266.git
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Added cabac bit cost calculations to SAO search
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parent
5f732126c3
commit
b274e7adcd
80
src/sao.c
80
src/sao.c
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@ -22,6 +22,7 @@
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*/
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*/
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#include "sao.h"
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#include "sao.h"
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#include "rdo.h"
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#include <string.h>
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#include <string.h>
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#include <stdlib.h>
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#include <stdlib.h>
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@ -144,52 +145,61 @@ static int sao_check_merge(const sao_info *sao_candidate, int type,
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}
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}
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static int sao_mode_bits_none(sao_info *sao_top, sao_info *sao_left)
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static float sao_mode_bits_none(const encoder_state * const encoder_state, sao_info *sao_top, sao_info *sao_left)
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{
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{
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int mode_bits = 0;
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float mode_bits = 0.0;
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cabac_data * const cabac = &encoder_state->cabac;
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const cabac_ctx *ctx = NULL;
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// FL coded merges.
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// FL coded merges.
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if (sao_left != NULL) {
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if (sao_left != NULL) {
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mode_bits += 1;
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ctx = &(cabac->ctx_sao_merge_flag_model);
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mode_bits += sao_left->type == SAO_TYPE_NONE ? CTX_ENTROPY_FBITS(ctx, 1) : CTX_ENTROPY_FBITS(ctx, 0);
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if (sao_check_merge(sao_left, SAO_TYPE_NONE, 0, 0, 0)) {
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if (sao_check_merge(sao_left, SAO_TYPE_NONE, 0, 0, 0)) {
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return mode_bits;
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return mode_bits;
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}
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}
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}
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}
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if (sao_top != NULL) {
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if (sao_top != NULL) {
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mode_bits += 1;
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ctx = &(cabac->ctx_sao_merge_flag_model);
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mode_bits += sao_top->type == SAO_TYPE_NONE ? CTX_ENTROPY_FBITS(ctx, 1) : CTX_ENTROPY_FBITS(ctx, 0);
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if (sao_check_merge(sao_top, SAO_TYPE_NONE, 0, 0, 0)) {
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if (sao_check_merge(sao_top, SAO_TYPE_NONE, 0, 0, 0)) {
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return mode_bits;
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return mode_bits;
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}
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}
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}
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}
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// TR coded type_idx_, none = 0
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// TR coded type_idx_, none = 0
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mode_bits += 1;
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ctx = &(cabac->ctx_sao_type_idx_model);
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mode_bits += CTX_ENTROPY_FBITS(ctx, 0);
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return mode_bits;
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return mode_bits;
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}
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}
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static int sao_mode_bits_edge(int edge_class, int offsets[NUM_SAO_EDGE_CATEGORIES],
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static float sao_mode_bits_edge(const encoder_state * const encoder_state,
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int edge_class, int offsets[NUM_SAO_EDGE_CATEGORIES],
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sao_info *sao_top, sao_info *sao_left)
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sao_info *sao_top, sao_info *sao_left)
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{
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{
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int mode_bits = 0;
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float mode_bits = 0.0;
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cabac_data * const cabac = &encoder_state->cabac;
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const cabac_ctx *ctx = NULL;
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// FL coded merges.
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// FL coded merges.
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if (sao_left != NULL) {
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if (sao_left != NULL) {
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mode_bits += 1;
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ctx = &(cabac->ctx_sao_merge_flag_model);
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mode_bits += sao_check_merge(sao_left, SAO_TYPE_EDGE, offsets, 0, edge_class) ? CTX_ENTROPY_FBITS(ctx, 1) : CTX_ENTROPY_FBITS(ctx, 0);
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if (sao_check_merge(sao_left, SAO_TYPE_EDGE, offsets, 0, edge_class)) {
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if (sao_check_merge(sao_left, SAO_TYPE_EDGE, offsets, 0, edge_class)) {
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return mode_bits;
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return mode_bits;
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}
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}
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}
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}
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if (sao_top != NULL) {
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if (sao_top != NULL) {
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mode_bits += 1;
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ctx = &(cabac->ctx_sao_merge_flag_model);
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mode_bits += sao_check_merge(sao_top, SAO_TYPE_EDGE, offsets, 0, edge_class) ? CTX_ENTROPY_FBITS(ctx, 1) : CTX_ENTROPY_FBITS(ctx, 0);
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if (sao_check_merge(sao_top, SAO_TYPE_EDGE, offsets, 0, edge_class)) {
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if (sao_check_merge(sao_top, SAO_TYPE_EDGE, offsets, 0, edge_class)) {
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return mode_bits;
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return mode_bits;
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}
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}
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}
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}
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// TR coded type_idx_, edge = 2 = cMax
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// TR coded type_idx_, edge = 2 = cMax
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mode_bits += 1;
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ctx = &(cabac->ctx_sao_type_idx_model);
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mode_bits += CTX_ENTROPY_FBITS(ctx, 1) + 1.0;
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// TR coded offsets.
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// TR coded offsets.
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{
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{
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@ -204,38 +214,38 @@ static int sao_mode_bits_edge(int edge_class, int offsets[NUM_SAO_EDGE_CATEGORIE
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}
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}
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}
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}
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// TR coded sao_eo_class_
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mode_bits += 2.0;
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if (edge_class == SAO_EO0 || edge_class == SAO_EO3) {
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mode_bits += 1;
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} else {
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mode_bits += 2;
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}
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return mode_bits;
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return mode_bits;
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}
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}
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static int sao_mode_bits_band(int band_position, int offsets[5],
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static float sao_mode_bits_band(const encoder_state * const encoder_state,
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int band_position, int offsets[5],
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sao_info *sao_top, sao_info *sao_left)
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sao_info *sao_top, sao_info *sao_left)
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{
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{
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int mode_bits = 0;
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float mode_bits = 0.0;
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cabac_data * const cabac = &encoder_state->cabac;
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const cabac_ctx *ctx = NULL;
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// FL coded merges.
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// FL coded merges.
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if (sao_left != NULL) {
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if (sao_left != NULL) {
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mode_bits += 1;
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const cabac_ctx *ctx = &(cabac->ctx_sao_merge_flag_model);
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mode_bits += sao_check_merge(sao_left, SAO_TYPE_EDGE, offsets, band_position, 0) ? CTX_ENTROPY_FBITS(ctx, 1) : CTX_ENTROPY_FBITS(ctx, 0);
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if (sao_check_merge(sao_left, SAO_TYPE_BAND, offsets, band_position, 0)) {
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if (sao_check_merge(sao_left, SAO_TYPE_BAND, offsets, band_position, 0)) {
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return mode_bits;
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return mode_bits;
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}
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}
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}
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}
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if (sao_top != NULL) {
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if (sao_top != NULL) {
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mode_bits += 1;
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const cabac_ctx *ctx = &(cabac->ctx_sao_merge_flag_model);
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mode_bits += sao_check_merge(sao_top, SAO_TYPE_EDGE, offsets, band_position, 0) ? CTX_ENTROPY_FBITS(ctx, 1) : CTX_ENTROPY_FBITS(ctx, 0);
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if (sao_check_merge(sao_top, SAO_TYPE_BAND, offsets, band_position, 0)) {
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if (sao_check_merge(sao_top, SAO_TYPE_BAND, offsets, band_position, 0)) {
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return mode_bits;
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return mode_bits;
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}
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}
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}
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}
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// TR coded sao_type_idx_, band = 1
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// TR coded sao_type_idx_, band = 1
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mode_bits += 2;
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ctx = &(cabac->ctx_sao_type_idx_model);
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mode_bits += CTX_ENTROPY_FBITS(ctx, 1) + 1.0;
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// TR coded offsets and possible FL coded offset signs.
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// TR coded offsets and possible FL coded offset signs.
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{
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{
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@ -253,7 +263,7 @@ static int sao_mode_bits_band(int band_position, int offsets[5],
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}
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}
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// FL coded band position.
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// FL coded band position.
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mode_bits += 5;
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mode_bits += 5.0;
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return mode_bits;
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return mode_bits;
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}
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}
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@ -669,8 +679,8 @@ static void sao_search_edge_sao(const encoder_state * const encoder_state,
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}
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}
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{
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{
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int mode_bits = sao_mode_bits_edge(edge_class, edge_offset, sao_top, sao_left);
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float mode_bits = sao_mode_bits_edge(encoder_state,edge_class, edge_offset, sao_top, sao_left);
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sum_ddistortion += (int)((double)mode_bits*(encoder_state->global->cur_lambda_cost+0.5));
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sum_ddistortion += (int)((double)mode_bits*encoder_state->global->cur_lambda_cost+0.5);
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}
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}
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// SAO is not applied for category 0.
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// SAO is not applied for category 0.
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edge_offset[SAO_EO_CAT0] = 0;
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edge_offset[SAO_EO_CAT0] = 0;
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@ -701,7 +711,7 @@ static void sao_search_band_sao(const encoder_state * const encoder_state, const
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int sao_bands[2][32];
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int sao_bands[2][32];
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int temp_offsets[5];
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int temp_offsets[5];
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int ddistortion;
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int ddistortion;
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int temp_rate = 0;
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float temp_rate = 0.0;
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memset(sao_bands, 0, 2 * 32 * sizeof(int));
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memset(sao_bands, 0, 2 * 32 * sizeof(int));
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for (i = 0; i < buf_cnt; ++i) {
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for (i = 0; i < buf_cnt; ++i) {
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@ -711,8 +721,8 @@ static void sao_search_band_sao(const encoder_state * const encoder_state, const
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ddistortion = calc_sao_band_offsets(sao_bands, &temp_offsets[1], &sao_out->band_position);
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ddistortion = calc_sao_band_offsets(sao_bands, &temp_offsets[1], &sao_out->band_position);
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temp_rate = sao_mode_bits_band(sao_out->band_position, temp_offsets, sao_top, sao_left);
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temp_rate = sao_mode_bits_band(encoder_state, sao_out->band_position, temp_offsets, sao_top, sao_left);
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ddistortion += (int)((double)temp_rate*(encoder_state->global->cur_lambda_cost+0.5));
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ddistortion += (int)((double)temp_rate*encoder_state->global->cur_lambda_cost+0.5);
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// Select band sao over edge sao when distortion is lower
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// Select band sao over edge sao when distortion is lower
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if (ddistortion < sao_out->ddistortion) {
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if (ddistortion < sao_out->ddistortion) {
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@ -753,8 +763,8 @@ static void sao_search_best_mode(const encoder_state * const encoder_state, cons
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sao_search_band_sao(encoder_state, data, recdata, block_width, block_height, buf_cnt, &band_sao, sao_top, sao_left);
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sao_search_band_sao(encoder_state, data, recdata, block_width, block_height, buf_cnt, &band_sao, sao_top, sao_left);
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{
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{
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int mode_bits = sao_mode_bits_edge(edge_sao.eo_class, edge_sao.offsets, sao_top, sao_left);
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float mode_bits = sao_mode_bits_edge(encoder_state, edge_sao.eo_class, edge_sao.offsets, sao_top, sao_left);
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int ddistortion = mode_bits * (int)(encoder_state->global->cur_lambda_cost + 0.5);
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int ddistortion = (int)(mode_bits * encoder_state->global->cur_lambda_cost + 0.5);
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unsigned buf_i;
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unsigned buf_i;
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for (buf_i = 0; buf_i < buf_cnt; ++buf_i) {
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for (buf_i = 0; buf_i < buf_cnt; ++buf_i) {
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@ -767,8 +777,8 @@ static void sao_search_best_mode(const encoder_state * const encoder_state, cons
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}
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}
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{
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{
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int mode_bits = sao_mode_bits_band(band_sao.band_position, band_sao.offsets, sao_top, sao_left);
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float mode_bits = sao_mode_bits_band(encoder_state, band_sao.band_position, band_sao.offsets, sao_top, sao_left);
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int ddistortion = mode_bits * (int)(encoder_state->global->cur_lambda_cost + 0.5);
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int ddistortion = (int)(mode_bits * encoder_state->global->cur_lambda_cost + 0.5);
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unsigned buf_i;
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unsigned buf_i;
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for (buf_i = 0; buf_i < buf_cnt; ++buf_i) {
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for (buf_i = 0; buf_i < buf_cnt; ++buf_i) {
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// Choose between SAO and doing nothing, taking into account the
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// Choose between SAO and doing nothing, taking into account the
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// rate-distortion cost of coding do nothing.
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// rate-distortion cost of coding do nothing.
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{
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{
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int cost_of_nothing = sao_mode_bits_none(sao_top, sao_left) * (int)(encoder_state->global->cur_lambda_cost + 0.5);
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int cost_of_nothing = (int)(sao_mode_bits_none(encoder_state, sao_top, sao_left) * encoder_state->global->cur_lambda_cost + 0.5);
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if (sao_out->ddistortion >= cost_of_nothing) {
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if (sao_out->ddistortion >= cost_of_nothing) {
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sao_out->type = SAO_TYPE_NONE;
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sao_out->type = SAO_TYPE_NONE;
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}
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}
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