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https://github.com/ultravideo/uvg266.git
synced 2024-11-30 12:44:07 +00:00
parent
46d33d3945
commit
d44d1837bb
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@ -357,7 +357,7 @@ int32_t context_calc_pattern_sig_ctx(const uint32_t *sig_coeff_group_flag, uint3
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*/
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int32_t context_get_sig_ctx_inc(int32_t pattern_sig_ctx, uint32_t scan_idx, int32_t pos_x,
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int32_t pos_y, int32_t block_type, int32_t width, int8_t texture_type)
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int32_t pos_y, int32_t block_type, int8_t texture_type)
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{
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const int32_t ctx_ind_map[16] =
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{
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@ -46,7 +46,7 @@ uint32_t context_get_sig_coeff_group( uint32_t *sig_coeff_group_flag,uint32_t po
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int32_t context_get_sig_ctx_inc(int32_t pattern_sig_ctx,uint32_t scan_idx,int32_t pos_x,
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int32_t pos_y,int32_t block_type,int32_t width, int8_t texture_type);
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int32_t pos_y,int32_t block_type, int8_t texture_type);
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// CONTEXTS
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extern cabac_ctx g_sao_merge_flag_model;
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@ -377,7 +377,7 @@ void init_encoder_input(encoder_input *input, FILE *inputfile,
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static void write_aud(encoder_control* encoder)
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{
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encode_access_unit_delimiter(encoder);
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nal_write(encoder->output, 0, AUD_NUT, 0, 1);
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nal_write(encoder->output, AUD_NUT, 0, 1);
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bitstream_align(encoder->stream);
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}
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@ -421,23 +421,23 @@ void encode_one_frame(encoder_control* encoder)
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write_aud(encoder);
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// Video Parameter Set (VPS)
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nal_write(encoder->output, 0, NAL_VPS_NUT, 0, 1);
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nal_write(encoder->output, NAL_VPS_NUT, 0, 1);
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encode_vid_parameter_set(encoder);
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bitstream_align(encoder->stream);
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// Sequence Parameter Set (SPS)
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nal_write(encoder->output, 0, NAL_SPS_NUT, 0, 1);
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nal_write(encoder->output, NAL_SPS_NUT, 0, 1);
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encode_seq_parameter_set(encoder);
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bitstream_align(encoder->stream);
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// Picture Parameter Set (PPS)
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nal_write(encoder->output, 0, NAL_PPS_NUT, 0, 1);
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nal_write(encoder->output, NAL_PPS_NUT, 0, 1);
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encode_pic_parameter_set(encoder);
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bitstream_align(encoder->stream);
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if (encoder->frame == 0) {
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// Prefix SEI
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nal_write(encoder->output, 0, PREFIX_SEI_NUT, 0, 0);
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nal_write(encoder->output, PREFIX_SEI_NUT, 0, 0);
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encode_prefix_sei_version(encoder);
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bitstream_align(encoder->stream);
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}
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@ -456,7 +456,7 @@ void encode_one_frame(encoder_control* encoder)
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// so I tried to not change it's behavior.
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int long_start_code = is_radl_frame || encoder->aud_enable ? 0 : 1;
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nal_write(encoder->output, 0,
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nal_write(encoder->output,
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is_radl_frame ? NAL_IDR_W_RADL : NAL_TRAIL_R, 0, long_start_code);
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}
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@ -660,7 +660,7 @@ static void add_checksum(encoder_control* encoder)
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uint32_t checksum_val;
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unsigned int i;
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nal_write(encoder->output, 0, NAL_SUFFIT_SEI_NUT, 0, 0);
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nal_write(encoder->output, NAL_SUFFIT_SEI_NUT, 0, 0);
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picture_checksum(encoder->in.cur_pic, checksum);
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@ -2398,7 +2398,7 @@ void encode_coeff_nxn(encoder_control *encoder, coefficient *coeff, uint8_t widt
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last_coeff_y = (uint8_t)(pos_last >> log2_block_size);
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// Code last_coeff_x and last_coeff_y
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encode_last_significant_xy(encoder, last_coeff_x, last_coeff_y, width, width,
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encode_last_significant_xy(last_coeff_x, last_coeff_y, width, width,
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type, scan_mode);
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scan_pos_sig = scan_pos_last;
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@ -2449,7 +2449,7 @@ void encode_coeff_nxn(encoder_control *encoder, coefficient *coeff, uint8_t widt
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if (scan_pos_sig > sub_pos || i == 0 || num_non_zero) {
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ctx_sig = context_get_sig_ctx_inc(pattern_sig_ctx, scan_mode, pos_x, pos_y,
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log2_block_size, width, type);
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log2_block_size, type);
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cabac.ctx = &baseCtx[ctx_sig];
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CABAC_BIN(&cabac, sig, "significant_coeff_flag");
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}
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@ -2555,8 +2555,7 @@ void encode_coeff_nxn(encoder_control *encoder, coefficient *coeff, uint8_t widt
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This method encodes the X and Y component within a block of the last significant coefficient.
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*/
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void encode_last_significant_xy(encoder_control *encoder,
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uint8_t lastpos_x, uint8_t lastpos_y,
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void encode_last_significant_xy(uint8_t lastpos_x, uint8_t lastpos_y,
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uint8_t width, uint8_t height,
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uint8_t type, uint8_t scan)
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{
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@ -115,8 +115,8 @@ void encode_access_unit_delimiter(encoder_control* encoder);
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void encode_prefix_sei_version(encoder_control* encoder);
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void encode_coding_tree(encoder_control *encoder, uint16_t x_ctb,
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uint16_t y_ctb, uint8_t depth);
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void encode_last_significant_xy(encoder_control *encoder, uint8_t lastpos_x,
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uint8_t lastpos_y, uint8_t width, uint8_t height,
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void encode_last_significant_xy(uint8_t lastpos_x, uint8_t lastpos_y,
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uint8_t width, uint8_t height,
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uint8_t type, uint8_t scan);
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void encode_coeff_nxn(encoder_control *encoder, int16_t *coeff, uint8_t width,
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uint8_t type, int8_t scan_mode, int8_t tr_skip);
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@ -35,7 +35,7 @@
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/**
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* \brief Write a Network Abstraction Layer (NAL) packet to the output.
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*/
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void nal_write(FILE *output, uint8_t nal_ref, uint8_t nal_type,
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void nal_write(FILE *output, uint8_t nal_type,
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uint8_t temporal_id,int long_start_code)
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{
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uint8_t byte;
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@ -92,7 +92,7 @@ enum {
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//////////////////////////////////////////////////////////////////////////
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// FUNCTIONS
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void nal_write(FILE *output,uint8_t nal_ref, uint8_t nal_type,
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void nal_write(FILE *output, uint8_t nal_type,
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uint8_t temporal_id,int long_start_code);
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void picture_checksum(const picture *pic,
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unsigned char checksum_out[][SEI_HASH_MAX_LENGTH]);
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@ -408,7 +408,7 @@ void rdoq(encoder_control *encoder, coefficient *coef, coefficient *dest_coeff,
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uint32_t pos_y = blkpos >> log2_block_size;
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uint32_t pos_x = blkpos - ( pos_y << log2_block_size );
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uint16_t ctx_sig = (uint16_t)context_get_sig_ctx_inc(pattern_sig_ctx, scan_mode, pos_x, pos_y,
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log2_block_size, width, type);
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log2_block_size, type);
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level = get_coded_level(encoder, &cost_coeff[ scanpos ], &cost_coeff0[ scanpos ], &cost_sig[ scanpos ],
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level_double, max_abs_level, ctx_sig, one_ctx, abs_ctx, go_rice_param,
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c1_idx, c2_idx, q_bits, temp, 0, type );
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@ -265,8 +265,7 @@ static void sao_reconstruct_color(const pixel *rec_data, pixel *new_rec_data,
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* \param rec Top-left corner of the LCU
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*/
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static void sao_calc_band_block_dims(const picture *pic, color_index color_i,
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const sao_info *sao, vector2d *rec,
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vector2d *block)
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vector2d *rec, vector2d *block)
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{
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const int is_chroma = (color_i != COLOR_Y ? 1 : 0);
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int width = pic->width >> is_chroma;
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@ -406,7 +405,7 @@ void sao_reconstruct(picture *pic, const pixel *old_rec,
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if (sao->type == SAO_TYPE_BAND) {
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tl.x = 0; tl.y = 0;
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br.x = 0; br.y = 0;
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sao_calc_band_block_dims(pic, color_i, sao,&ofs, &block);
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sao_calc_band_block_dims(pic, color_i, &ofs, &block);
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}
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else {
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sao_calc_edge_block_dims(pic, color_i, sao, &ofs, &tl, &br, &block);
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19
src/search.c
19
src/search.c
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@ -117,7 +117,7 @@ static uint32_t get_mvd_coding_cost(vector2d *mvd)
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return bitcost;
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}
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static int calc_mvd_cost(int x, int y, const vector2d *pred,
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static int calc_mvd_cost(int x, int y,
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int16_t mv_cand[2][2], int16_t merge_cand[MRG_MAX_NUM_CANDS][3],
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int16_t num_cand,int32_t ref_idx, uint32_t *bitcost)
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{
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@ -203,7 +203,7 @@ static unsigned hexagon_search(unsigned depth,
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unsigned cost = calc_sad(pic, ref, orig->x, orig->y,
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orig->x + mv.x + pattern->x, orig->y + mv.y + pattern->y,
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block_width, block_width);
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cost += calc_mvd_cost(mv.x + pattern->x, mv.y + pattern->y, mv_in_out,mv_cand,merge_cand,num_cand,ref_idx, &bitcost);
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cost += calc_mvd_cost(mv.x + pattern->x, mv.y + pattern->y, mv_cand,merge_cand,num_cand,ref_idx, &bitcost);
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if (cost < best_cost) {
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best_cost = cost;
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@ -217,7 +217,7 @@ static unsigned hexagon_search(unsigned depth,
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unsigned cost = calc_sad(pic, ref, orig->x, orig->y,
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orig->x, orig->y,
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block_width, block_width);
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cost += calc_mvd_cost(0, 0, mv_in_out,mv_cand,merge_cand,num_cand,ref_idx, &bitcost);
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cost += calc_mvd_cost(0, 0, mv_cand,merge_cand,num_cand,ref_idx, &bitcost);
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// If the 0,0 is better, redo the hexagon around that point.
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if (cost < best_cost) {
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@ -233,7 +233,7 @@ static unsigned hexagon_search(unsigned depth,
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orig->x + pattern->x,
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orig->y + pattern->y,
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block_width, block_width);
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cost += calc_mvd_cost(pattern->x, pattern->y, mv_in_out,mv_cand,merge_cand,num_cand,ref_idx, &bitcost);
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cost += calc_mvd_cost(pattern->x, pattern->y, mv_cand,merge_cand,num_cand,ref_idx, &bitcost);
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if (cost < best_cost) {
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best_cost = cost;
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@ -268,7 +268,7 @@ static unsigned hexagon_search(unsigned depth,
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orig->x + mv.x + offset->x,
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orig->y + mv.y + offset->y,
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block_width, block_width);
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cost += calc_mvd_cost(mv.x + offset->x, mv.y + offset->y, mv_in_out,mv_cand,merge_cand,num_cand,ref_idx, &bitcost);
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cost += calc_mvd_cost(mv.x + offset->x, mv.y + offset->y, mv_cand,merge_cand,num_cand,ref_idx, &bitcost);
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if (cost < best_cost) {
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best_cost = cost;
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@ -291,7 +291,7 @@ static unsigned hexagon_search(unsigned depth,
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orig->x + mv.x + offset->x,
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orig->y + mv.y + offset->y,
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block_width, block_width);
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cost += calc_mvd_cost(mv.x + offset->x, mv.y + offset->y, mv_in_out,mv_cand,merge_cand,num_cand,ref_idx, &bitcost);
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cost += calc_mvd_cost(mv.x + offset->x, mv.y + offset->y, mv_cand,merge_cand,num_cand,ref_idx, &bitcost);
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if (cost > 0 && cost < best_cost) {
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best_cost = cost;
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@ -347,7 +347,7 @@ static unsigned search_mv_full(unsigned depth,
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orig->x + x,
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orig->y + y,
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block_width, block_width);
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cost += calc_mvd_cost(x, y, mv_in_out,mv_cand,merge_cand,num_cand,ref_idx, &bitcost);
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cost += calc_mvd_cost(x, y, mv_cand,merge_cand,num_cand,ref_idx, &bitcost);
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if (cost < best_cost) {
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best_cost = cost;
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best_bitcost = bitcost;
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@ -724,8 +724,7 @@ static int search_cu_intra(encoder_control *encoder,
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* coding (bitcost * lambda) and cost for coding coefficients (estimated
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* here as (coefficient_sum * 1.5) * lambda)
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*/
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static int lcu_get_final_cost(encoder_control *encoder,
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const int x_px, const int y_px,
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static int lcu_get_final_cost(const int x_px, const int y_px,
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const int depth, lcu_t *lcu)
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{
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cu_info *cur_cu;
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@ -843,7 +842,7 @@ static int search_cu(encoder_control *encoder, int x, int y, int depth, lcu_t wo
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}
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}
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if (cur_cu->type == CU_INTRA || cur_cu->type == CU_INTER) {
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cost = lcu_get_final_cost(encoder, x, y, depth, &work_tree[depth]);
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cost = lcu_get_final_cost(x, y, depth, &work_tree[depth]);
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}
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// Recursively split all the way to max search depth.
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