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https://github.com/ultravideo/uvg266.git
synced 2024-11-28 03:34:06 +00:00
Take cabac bits into account on transform tree.
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parent
296f142d9e
commit
3b04d39db4
53
src/search.c
53
src/search.c
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@ -761,7 +761,7 @@ static double cu_rd_cost_luma(const encoder_state *const encoder_state,
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cu_info *const tr_cu = &lcu->cu[LCU_CU_OFFSET + (x_px / 8) + (y_px / 8) * LCU_T_CU_WIDTH];
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cu_info *const tr_cu = &lcu->cu[LCU_CU_OFFSET + (x_px / 8) + (y_px / 8) * LCU_T_CU_WIDTH];
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double coeff_bits = 0;
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double coeff_bits = 0;
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double trtree_bits = 0;
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double tr_tree_bits = 0;
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// Check that lcu is not in
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// Check that lcu is not in
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assert(x_px >= 0 && x_px < LCU_WIDTH);
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assert(x_px >= 0 && x_px < LCU_WIDTH);
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@ -771,7 +771,6 @@ static double cu_rd_cost_luma(const encoder_state *const encoder_state,
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// Add cost of intra split flag on transform tree.
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// Add cost of intra split flag on transform tree.
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bool intra_split_flag = pred_cu->type == CU_INTRA && pred_cu->part_size == SIZE_NxN && depth == 3;
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bool intra_split_flag = pred_cu->type == CU_INTRA && pred_cu->part_size == SIZE_NxN && depth == 3;
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double tr_tree_bits = 0.0;
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if (width <= TR_MAX_WIDTH
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if (width <= TR_MAX_WIDTH
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&& width > TR_MIN_WIDTH
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&& width > TR_MIN_WIDTH
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&& !intra_split_flag)
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&& !intra_split_flag)
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@ -780,23 +779,6 @@ static double cu_rd_cost_luma(const encoder_state *const encoder_state,
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tr_tree_bits += CTX_ENTROPY_FBITS(ctx, split_transform_flag);
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tr_tree_bits += CTX_ENTROPY_FBITS(ctx, split_transform_flag);
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}
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}
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// Add cost of cbf chroma bits on transform tree.
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// All cbf bits are accumulated to pred_cu.cbf and cbf_is_set returns true
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// if cbf is set at any level >= depth, so cbf chroma is assumed to be 0
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// if this and any previous transform block has no chroma coefficients.
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// When searching the first block we don't actually know the real values,
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// so this will code cbf as 0 and not code the cbf at all for descendants.
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int tr_depth = depth - pred_cu->depth;
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if (depth < MAX_PU_DEPTH) { // log2TrafoSize > 2
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const cabac_ctx *ctx = &(encoder_state->cabac.ctx.qt_cbf_model_chroma[tr_depth]);
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if (tr_depth == 0 || cbf_is_set(pred_cu->cbf.u, depth - 1)) {
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tr_tree_bits += CTX_ENTROPY_FBITS(ctx, cbf_is_set(pred_cu->cbf.u, depth));
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}
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if (tr_depth == 0 || cbf_is_set(pred_cu->cbf.v, depth - 1)) {
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tr_tree_bits += CTX_ENTROPY_FBITS(ctx, cbf_is_set(pred_cu->cbf.v, depth));
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}
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}
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if (split_transform_flag) {
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if (split_transform_flag) {
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int offset = width / 2;
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int offset = width / 2;
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double sum = 0;
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double sum = 0;
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@ -806,7 +788,7 @@ static double cu_rd_cost_luma(const encoder_state *const encoder_state,
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sum += cu_rd_cost_luma(encoder_state, x_px, y_px + offset, depth + 1, pred_cu, lcu);
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sum += cu_rd_cost_luma(encoder_state, x_px, y_px + offset, depth + 1, pred_cu, lcu);
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sum += cu_rd_cost_luma(encoder_state, x_px + offset, y_px + offset, depth + 1, pred_cu, lcu);
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sum += cu_rd_cost_luma(encoder_state, x_px + offset, y_px + offset, depth + 1, pred_cu, lcu);
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return sum + trtree_bits * encoder_state->global->cur_lambda_cost;
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return sum + tr_tree_bits * encoder_state->global->cur_lambda_cost;
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}
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}
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if (pred_cu->type == CU_INTRA || depth > pred_cu->depth) {
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if (pred_cu->type == CU_INTRA || depth > pred_cu->depth) {
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@ -841,7 +823,7 @@ static double cu_rd_cost_luma(const encoder_state *const encoder_state,
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coeff_bits += get_coeff_cost(encoder_state, coeff_temp, width, 0, luma_scan_mode);
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coeff_bits += get_coeff_cost(encoder_state, coeff_temp, width, 0, luma_scan_mode);
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}
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}
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double bits = trtree_bits + coeff_bits;
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double bits = tr_tree_bits + coeff_bits;
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return ssd + bits * encoder_state->global->cur_lambda_cost;
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return ssd + bits * encoder_state->global->cur_lambda_cost;
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}
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}
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@ -856,28 +838,29 @@ static double cu_rd_cost_chroma(const encoder_state *const encoder_state,
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const int width = (depth <= MAX_DEPTH) ? LCU_WIDTH >> (depth + 1) : LCU_WIDTH >> depth;
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const int width = (depth <= MAX_DEPTH) ? LCU_WIDTH >> (depth + 1) : LCU_WIDTH >> depth;
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cu_info *const tr_cu = &lcu->cu[LCU_CU_OFFSET + (lcu_px.x / 4) + (lcu_px.y / 4)*LCU_T_CU_WIDTH];
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cu_info *const tr_cu = &lcu->cu[LCU_CU_OFFSET + (lcu_px.x / 4) + (lcu_px.y / 4)*LCU_T_CU_WIDTH];
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double trtree_bits = 0;
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double tr_tree_bits = 0;
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double coeff_bits = 0;
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double coeff_bits = 0;
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assert(x_px >= 0 && x_px < LCU_WIDTH);
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assert(x_px >= 0 && x_px < LCU_WIDTH);
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assert(y_px >= 0 && y_px < LCU_WIDTH);
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assert(y_px >= 0 && y_px < LCU_WIDTH);
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if (depth < MAX_PU_DEPTH) {
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if (PU_INDEX(x_px / 4, y_px / 4) != 0) {
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// cbf_c bits are present only when log2TrafoSize > 2
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if (tr_cu->tr_depth == depth) {
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// cbf_c bits are always present at transform depth 0.
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//trtree_bits += 2;
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} else {
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// cbf_c bits are not present if cbf has already been set to 0.
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//trtree_bits += cbf_is_set(tr_cu->cbf.u, depth - 1);
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//trtree_bits += cbf_is_set(tr_cu->cbf.v, depth - 1);
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}
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} else if (PU_INDEX(x_px / 4, y_px / 4) != 0) {
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// For MAX_PU_DEPTH calculate chroma for previous depth for the first
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// For MAX_PU_DEPTH calculate chroma for previous depth for the first
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// block and return 0 cost for all others.
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// block and return 0 cost for all others.
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return 0;
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return 0;
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}
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}
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if (depth < MAX_PU_DEPTH) {
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const int tr_depth = depth - pred_cu->depth;
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const cabac_ctx *ctx = &(encoder_state->cabac.ctx.qt_cbf_model_chroma[tr_depth]);
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if (tr_depth == 0 || cbf_is_set(pred_cu->cbf.u, depth - 1)) {
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tr_tree_bits += CTX_ENTROPY_FBITS(ctx, cbf_is_set(pred_cu->cbf.u, depth));
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}
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if (tr_depth == 0 || cbf_is_set(pred_cu->cbf.v, depth - 1)) {
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tr_tree_bits += CTX_ENTROPY_FBITS(ctx, cbf_is_set(pred_cu->cbf.v, depth));
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}
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}
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if (tr_cu->tr_depth > depth) {
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if (tr_cu->tr_depth > depth) {
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int offset = LCU_WIDTH >> (depth + 1);
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int offset = LCU_WIDTH >> (depth + 1);
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int sum = 0;
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int sum = 0;
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@ -887,7 +870,7 @@ static double cu_rd_cost_chroma(const encoder_state *const encoder_state,
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sum += cu_rd_cost_chroma(encoder_state, x_px, y_px + offset, depth + 1, pred_cu, lcu);
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sum += cu_rd_cost_chroma(encoder_state, x_px, y_px + offset, depth + 1, pred_cu, lcu);
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sum += cu_rd_cost_chroma(encoder_state, x_px + offset, y_px + offset, depth + 1, pred_cu, lcu);
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sum += cu_rd_cost_chroma(encoder_state, x_px + offset, y_px + offset, depth + 1, pred_cu, lcu);
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return sum + trtree_bits * encoder_state->global->cur_lambda_cost;
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return sum + tr_tree_bits * encoder_state->global->cur_lambda_cost;
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}
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}
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// Chroma SSD
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// Chroma SSD
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@ -930,7 +913,7 @@ static double cu_rd_cost_chroma(const encoder_state *const encoder_state,
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coeff_bits += get_coeff_cost(encoder_state, coeff_temp, width, 2, scan_order);
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coeff_bits += get_coeff_cost(encoder_state, coeff_temp, width, 2, scan_order);
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}
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}
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double bits = trtree_bits + coeff_bits;
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double bits = tr_tree_bits + coeff_bits;
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return ssd + bits * encoder_state->global->cur_lambda_cost;
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return ssd + bits * encoder_state->global->cur_lambda_cost;
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}
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}
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