mirror of
https://github.com/ultravideo/uvg266.git
synced 2024-11-24 02:24:07 +00:00
Fix compiler warnings for VS2010 /W4 in nal.c.
- Working towards issue #11. - Leaving this as a separate commit in case there is a regression.
This commit is contained in:
parent
ea600ec980
commit
75f3ba5b2f
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@ -188,7 +188,7 @@ void init_tables(void)
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c++;
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c++;
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}
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}
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g_convert_to_bit[i] = c;
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g_convert_to_bit[i] = (int8_t)c;
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c = 2;
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c = 2;
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for (i = 0; i < 7; i++) {
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for (i = 0; i < 7; i++) {
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@ -1655,8 +1655,7 @@ void reconstruct_chroma(encoder_control *encoder, cu_info *cur_cu,
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pixel *recbase_u, pixel *pred_u, int color_type,
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pixel *recbase_u, pixel *pred_u, int color_type,
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coefficient *pre_quant_coeff, coefficient *block)
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coefficient *pre_quant_coeff, coefficient *block)
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{
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{
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int width_c = LCU_WIDTH >> (depth + 1);
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int8_t width_c = LCU_WIDTH >> (depth + 1);
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int coeff_stride = encoder->in.width;
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int pred_stride = encoder->in.width;
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int pred_stride = encoder->in.width;
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int recbase_stride = encoder->in.width;
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int recbase_stride = encoder->in.width;
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@ -1664,7 +1663,7 @@ void reconstruct_chroma(encoder_control *encoder, cu_info *cur_cu,
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if (has_coeffs) {
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if (has_coeffs) {
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// RECONSTRUCT for predictions
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// RECONSTRUCT for predictions
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dequant(encoder, coeff_u, pre_quant_coeff, width_c, width_c, color_type, cur_cu->type);
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dequant(encoder, coeff_u, pre_quant_coeff, width_c, width_c, (int8_t)color_type, cur_cu->type);
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itransform2d(block, pre_quant_coeff, width_c, 65535);
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itransform2d(block, pre_quant_coeff, width_c, 65535);
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i = 0;
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i = 0;
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@ -1694,8 +1693,8 @@ void encode_transform_tree(encoder_control *encoder, int32_t x_pu, int32_t y_pu,
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int32_t x_cu = x_pu / 2;
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int32_t x_cu = x_pu / 2;
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int32_t y_cu = y_pu / 2;
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int32_t y_cu = y_pu / 2;
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int i;
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int i;
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int32_t width = LCU_WIDTH>>depth;
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int8_t width = LCU_WIDTH>>depth;
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int32_t width_c = (depth == MAX_DEPTH + 1 ? width : width >> 1);
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int8_t width_c = (depth == MAX_DEPTH + 1 ? width : width >> 1);
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cu_info *cur_cu = &encoder->in.cur_pic->cu_array[MAX_DEPTH][x_cu + y_cu * (encoder->in.width_in_lcu << MAX_DEPTH)];
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cu_info *cur_cu = &encoder->in.cur_pic->cu_array[MAX_DEPTH][x_cu + y_cu * (encoder->in.width_in_lcu << MAX_DEPTH)];
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// Split transform and increase depth
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// Split transform and increase depth
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@ -1764,8 +1763,8 @@ void encode_transform_tree(encoder_control *encoder, int32_t x_pu, int32_t y_pu,
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uint32_t ac_sum = 0;
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uint32_t ac_sum = 0;
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uint32_t ctx_idx;
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uint32_t ctx_idx;
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uint32_t scan_idx_luma = SCAN_DIAG;
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uint8_t scan_idx_luma = SCAN_DIAG;
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uint32_t scan_idx_chroma = SCAN_DIAG;
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uint8_t scan_idx_chroma = SCAN_DIAG;
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uint8_t dir_mode;
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uint8_t dir_mode;
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int cbf_y = 0;
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int cbf_y = 0;
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@ -1850,7 +1849,8 @@ void encode_transform_tree(encoder_control *encoder, int32_t x_pu, int32_t y_pu,
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// Transform and quant residual to coeffs
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// Transform and quant residual to coeffs
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transform2d(block,pre_quant_coeff,width,0);
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transform2d(block,pre_quant_coeff,width,0);
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#if RDOQ == 1
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#if RDOQ == 1
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rdoq(encoder, pre_quant_coeff, coeff_y, width, width, &ac_sum, 0, scan_idx_luma, cur_cu->type,cur_cu->tr_depth-cur_cu->depth);
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rdoq(encoder, pre_quant_coeff, coeff_y, width, width, &ac_sum, 0,
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scan_idx_luma, cur_cu->type, cur_cu->tr_depth-cur_cu->depth);
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#else
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#else
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quant(encoder, pre_quant_coeff, coeff_y, width, width, &ac_sum, 0, scan_idx_luma, cur_cu->type);
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quant(encoder, pre_quant_coeff, coeff_y, width, width, &ac_sum, 0, scan_idx_luma, cur_cu->type);
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#endif
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#endif
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@ -1972,8 +1972,8 @@ void encode_transform_tree(encoder_control *encoder, int32_t x_pu, int32_t y_pu,
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void encode_transform_unit(encoder_control *encoder, int x_pu, int y_pu, int depth, int tr_depth)
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void encode_transform_unit(encoder_control *encoder, int x_pu, int y_pu, int depth, int tr_depth)
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{
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{
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int width = LCU_WIDTH >> depth;
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uint8_t width = LCU_WIDTH >> depth;
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int width_c = (depth == MAX_PU_DEPTH ? width : width >> 1);
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uint8_t width_c = (depth == MAX_PU_DEPTH ? width : width >> 1);
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int x_cu = x_pu / 2;
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int x_cu = x_pu / 2;
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int y_cu = y_pu / 2;
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int y_cu = y_pu / 2;
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@ -1985,7 +1985,7 @@ void encode_transform_unit(encoder_control *encoder, int x_pu, int y_pu, int dep
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int32_t coeff_stride = encoder->in.width;
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int32_t coeff_stride = encoder->in.width;
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uint32_t ctx_idx;
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uint32_t ctx_idx;
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uint32_t scan_idx = SCAN_DIAG;
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int8_t scan_idx = SCAN_DIAG;
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uint32_t dir_mode;
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uint32_t dir_mode;
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int cbf_y;
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int cbf_y;
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@ -2264,7 +2264,7 @@ void encode_coeff_nxn(encoder_control *encoder, coefficient *coeff, uint8_t widt
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}
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}
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last_coeff_x = pos_last & (width - 1);
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last_coeff_x = pos_last & (width - 1);
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last_coeff_y = pos_last >> log2_block_size;
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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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// 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(encoder, last_coeff_x, last_coeff_y, width, width,
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@ -2437,6 +2437,8 @@ void encode_last_significant_xy(encoder_control *encoder,
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cabac_ctx *base_ctx_x = (type ? g_cu_ctx_last_x_chroma : g_cu_ctx_last_x_luma);
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cabac_ctx *base_ctx_x = (type ? g_cu_ctx_last_x_chroma : g_cu_ctx_last_x_luma);
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cabac_ctx *base_ctx_y = (type ? g_cu_ctx_last_y_chroma : g_cu_ctx_last_y_luma);
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cabac_ctx *base_ctx_y = (type ? g_cu_ctx_last_y_chroma : g_cu_ctx_last_y_luma);
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UNREFERENCED_PARAMETER(encoder);
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if (scan == SCAN_VER) {
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if (scan == SCAN_VER) {
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SWAP( lastpos_x, lastpos_y,uint8_t );
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SWAP( lastpos_x, lastpos_y,uint8_t );
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}
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}
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@ -2496,7 +2498,6 @@ void encode_block_residual(encoder_control *encoder,
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{
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{
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cu_info *cur_cu = &encoder->in.cur_pic->cu_array[MAX_DEPTH][x_ctb + y_ctb * (encoder->in.width_in_lcu << MAX_DEPTH)];
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cu_info *cur_cu = &encoder->in.cur_pic->cu_array[MAX_DEPTH][x_ctb + y_ctb * (encoder->in.width_in_lcu << MAX_DEPTH)];
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uint8_t split_flag = GET_SPLITDATA(cur_cu, depth);
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uint8_t split_flag = GET_SPLITDATA(cur_cu, depth);
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uint8_t split_model = 0;
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// Check for slice border
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// Check for slice border
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uint8_t border_x = ((encoder->in.width) < (x_ctb * (LCU_WIDTH >> MAX_DEPTH) + (LCU_WIDTH >> depth))) ? 1 : 0;
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uint8_t border_x = ((encoder->in.width) < (x_ctb * (LCU_WIDTH >> MAX_DEPTH) + (LCU_WIDTH >> depth))) ? 1 : 0;
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@ -2537,10 +2538,9 @@ void encode_block_residual(encoder_control *encoder,
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// SEARCH BEST INTRA MODE (AGAIN)
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// SEARCH BEST INTRA MODE (AGAIN)
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pixel rec[(LCU_WIDTH*2+8)*(LCU_WIDTH*2+8)];
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pixel rec[(LCU_WIDTH*2+8)*(LCU_WIDTH*2+8)];
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pixel *rec_shift = &rec[(LCU_WIDTH >> (depth)) * 2 + 8 + 1];
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pixel *rec_shift = &rec[(LCU_WIDTH >> (depth)) * 2 + 8 + 1];
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pixel *rec_shift_u = &rec[(LCU_WIDTH >> (depth + 1)) * 2 + 8 + 1];
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int width = LCU_WIDTH >> depth;
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int8_t width = LCU_WIDTH >> depth;
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int width_c = LCU_WIDTH >> (depth + 1);
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int8_t width_c = LCU_WIDTH >> (depth + 1);
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static vector2d offsets[4] = {{0,0},{1,0},{0,1},{1,1}};
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static vector2d offsets[4] = {{0,0},{1,0},{0,1},{1,1}};
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int num_pu = (cur_cu->part_size == SIZE_2Nx2N ? 1 : 4);
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int num_pu = (cur_cu->part_size == SIZE_2Nx2N ? 1 : 4);
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int i;
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int i;
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@ -2653,9 +2653,9 @@ void encode_block_residual(encoder_control *encoder,
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// Only check when candidates are different
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// Only check when candidates are different
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if (mv_cand[0][0] != mv_cand[1][0] || mv_cand[0][1] != mv_cand[1][1]) {
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if (mv_cand[0][0] != mv_cand[1][0] || mv_cand[0][1] != mv_cand[1][1]) {
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uint16_t cand_1_diff = abs(cur_cu->inter.mv[0] - mv_cand[0][0]) + abs(
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int cand_1_diff = abs(cur_cu->inter.mv[0] - mv_cand[0][0]) + abs(
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cur_cu->inter.mv[1] - mv_cand[0][1]);
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cur_cu->inter.mv[1] - mv_cand[0][1]);
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uint16_t cand_2_diff = abs(cur_cu->inter.mv[0] - mv_cand[1][0]) + abs(
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int cand_2_diff = abs(cur_cu->inter.mv[0] - mv_cand[1][0]) + abs(
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cur_cu->inter.mv[1] - mv_cand[1][1]);
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cur_cu->inter.mv[1] - mv_cand[1][1]);
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// Select candidate 1 if it's closer
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// Select candidate 1 if it's closer
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