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/*
* Copyright (c) 2021, 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.
*/
#include "av1/encoder/txb_rdopt.h"
#include "av1/encoder/txb_rdopt_utils.h"
#include "av1/common/idct.h"
static INLINE void update_coeff_general(
int *accu_rate, int64_t *accu_dist, int si, int eob, TX_SIZE tx_size,
TX_CLASS tx_class, int bhl, int width, int64_t rdmult, int shift,
int dc_sign_ctx, const int16_t *dequant, const int16_t *scan,
const LV_MAP_COEFF_COST *txb_costs, const tran_low_t *tcoeff,
tran_low_t *qcoeff, tran_low_t *dqcoeff, uint8_t *levels,
const qm_val_t *iqmatrix, const qm_val_t *qmatrix) {
const int dqv = get_dqv(dequant, scan[si], iqmatrix);
const int ci = scan[si];
const tran_low_t qc = qcoeff[ci];
const int is_last = si == (eob - 1);
const int coeff_ctx = get_lower_levels_ctx_general(
is_last, si, bhl, width, levels, ci, tx_size, tx_class);
if (qc == 0) {
*accu_rate += txb_costs->base_cost[coeff_ctx][0];
} else {
const int sign = (qc < 0) ? 1 : 0;
const tran_low_t abs_qc = abs(qc);
const tran_low_t tqc = tcoeff[ci];
const tran_low_t dqc = dqcoeff[ci];
const int64_t dist = get_coeff_dist(tqc, dqc, shift, qmatrix, ci);
const int64_t dist0 = get_coeff_dist(tqc, 0, shift, qmatrix, ci);
const int rate =
get_coeff_cost_general(is_last, ci, abs_qc, sign, coeff_ctx,
dc_sign_ctx, txb_costs, bhl, tx_class, levels);
const int64_t rd = RDCOST(rdmult, rate, dist);
tran_low_t qc_low, dqc_low;
tran_low_t abs_qc_low;
int64_t dist_low, rd_low;
int rate_low;
if (abs_qc == 1) {
abs_qc_low = qc_low = dqc_low = 0;
dist_low = dist0;
rate_low = txb_costs->base_cost[coeff_ctx][0];
} else {
get_qc_dqc_low(abs_qc, sign, dqv, shift, &qc_low, &dqc_low);
abs_qc_low = abs_qc - 1;
dist_low = get_coeff_dist(tqc, dqc_low, shift, qmatrix, ci);
rate_low =
get_coeff_cost_general(is_last, ci, abs_qc_low, sign, coeff_ctx,
dc_sign_ctx, txb_costs, bhl, tx_class, levels);
}
rd_low = RDCOST(rdmult, rate_low, dist_low);
if (rd_low < rd) {
qcoeff[ci] = qc_low;
dqcoeff[ci] = dqc_low;
levels[get_padded_idx(ci, bhl)] = AOMMIN(abs_qc_low, INT8_MAX);
*accu_rate += rate_low;
*accu_dist += dist_low - dist0;
} else {
*accu_rate += rate;
*accu_dist += dist - dist0;
}
}
}
static AOM_FORCE_INLINE void update_coeff_simple(
int *accu_rate, int si, int eob, TX_SIZE tx_size, TX_CLASS tx_class,
int bhl, int64_t rdmult, int shift, const int16_t *dequant,
const int16_t *scan, const LV_MAP_COEFF_COST *txb_costs,
const tran_low_t *tcoeff, tran_low_t *qcoeff, tran_low_t *dqcoeff,
uint8_t *levels, const qm_val_t *iqmatrix, const qm_val_t *qmatrix) {
const int dqv = get_dqv(dequant, scan[si], iqmatrix);
(void)eob;
// this simple version assumes the coeff's scan_idx is not DC (scan_idx != 0)
// and not the last (scan_idx != eob - 1)
assert(si != eob - 1);
assert(si > 0);
const int ci = scan[si];
const tran_low_t qc = qcoeff[ci];
const int coeff_ctx =
get_lower_levels_ctx(levels, ci, bhl, tx_size, tx_class);
if (qc == 0) {
*accu_rate += txb_costs->base_cost[coeff_ctx][0];
} else {
const tran_low_t abs_qc = abs(qc);
const tran_low_t abs_tqc = abs(tcoeff[ci]);
const tran_low_t abs_dqc = abs(dqcoeff[ci]);
int rate_low = 0;
const int rate = get_two_coeff_cost_simple(
ci, abs_qc, coeff_ctx, txb_costs, bhl, tx_class, levels, &rate_low);
if (abs_dqc < abs_tqc) {
*accu_rate += rate;
return;
}
const int64_t dist = get_coeff_dist(abs_tqc, abs_dqc, shift, qmatrix, ci);
const int64_t rd = RDCOST(rdmult, rate, dist);
const tran_low_t abs_qc_low = abs_qc - 1;
const tran_low_t abs_dqc_low = (abs_qc_low * dqv) >> shift;
const int64_t dist_low =
get_coeff_dist(abs_tqc, abs_dqc_low, shift, qmatrix, ci);
const int64_t rd_low = RDCOST(rdmult, rate_low, dist_low);
if (rd_low < rd) {
const int sign = (qc < 0) ? 1 : 0;
qcoeff[ci] = (-sign ^ abs_qc_low) + sign;
dqcoeff[ci] = (-sign ^ abs_dqc_low) + sign;
levels[get_padded_idx(ci, bhl)] = AOMMIN(abs_qc_low, INT8_MAX);
*accu_rate += rate_low;
} else {
*accu_rate += rate;
}
}
}
static AOM_FORCE_INLINE void update_coeff_eob(
int *accu_rate, int64_t *accu_dist, int *eob, int *nz_num, int *nz_ci,
int si, TX_SIZE tx_size, TX_CLASS tx_class, int bhl, int width,
int dc_sign_ctx, int64_t rdmult, int shift, const int16_t *dequant,
const int16_t *scan, const LV_MAP_EOB_COST *txb_eob_costs,
const LV_MAP_COEFF_COST *txb_costs, const tran_low_t *tcoeff,
tran_low_t *qcoeff, tran_low_t *dqcoeff, uint8_t *levels, int sharpness,
const qm_val_t *iqmatrix, const qm_val_t *qmatrix) {
const int dqv = get_dqv(dequant, scan[si], iqmatrix);
assert(si != *eob - 1);
const int ci = scan[si];
const tran_low_t qc = qcoeff[ci];
const int coeff_ctx =
get_lower_levels_ctx(levels, ci, bhl, tx_size, tx_class);
if (qc == 0) {
*accu_rate += txb_costs->base_cost[coeff_ctx][0];
} else {
int lower_level = 0;
const tran_low_t abs_qc = abs(qc);
const tran_low_t tqc = tcoeff[ci];
const tran_low_t dqc = dqcoeff[ci];
const int sign = (qc < 0) ? 1 : 0;
const int64_t dist0 = get_coeff_dist(tqc, 0, shift, qmatrix, ci);
int64_t dist = get_coeff_dist(tqc, dqc, shift, qmatrix, ci) - dist0;
int rate =
get_coeff_cost_general(0, ci, abs_qc, sign, coeff_ctx, dc_sign_ctx,
txb_costs, bhl, tx_class, levels);
int64_t rd = RDCOST(rdmult, *accu_rate + rate, *accu_dist + dist);
tran_low_t qc_low, dqc_low;
tran_low_t abs_qc_low;
int64_t dist_low, rd_low;
int rate_low;
if (abs_qc == 1) {
abs_qc_low = 0;
dqc_low = qc_low = 0;
dist_low = 0;
rate_low = txb_costs->base_cost[coeff_ctx][0];
rd_low = RDCOST(rdmult, *accu_rate + rate_low, *accu_dist);
} else {
get_qc_dqc_low(abs_qc, sign, dqv, shift, &qc_low, &dqc_low);
abs_qc_low = abs_qc - 1;
dist_low = get_coeff_dist(tqc, dqc_low, shift, qmatrix, ci) - dist0;
rate_low =
get_coeff_cost_general(0, ci, abs_qc_low, sign, coeff_ctx,
dc_sign_ctx, txb_costs, bhl, tx_class, levels);
rd_low = RDCOST(rdmult, *accu_rate + rate_low, *accu_dist + dist_low);
}
int lower_level_new_eob = 0;
const int new_eob = si + 1;
const int coeff_ctx_new_eob = get_lower_levels_ctx_eob(bhl, width, si);
const int new_eob_cost =
get_eob_cost(new_eob, txb_eob_costs, txb_costs, tx_class);
int rate_coeff_eob =
new_eob_cost + get_coeff_cost_eob(ci, abs_qc, sign, coeff_ctx_new_eob,
dc_sign_ctx, txb_costs, bhl,
tx_class);
int64_t dist_new_eob = dist;
int64_t rd_new_eob = RDCOST(rdmult, rate_coeff_eob, dist_new_eob);
if (abs_qc_low > 0) {
const int rate_coeff_eob_low =
new_eob_cost + get_coeff_cost_eob(ci, abs_qc_low, sign,
coeff_ctx_new_eob, dc_sign_ctx,
txb_costs, bhl, tx_class);
const int64_t dist_new_eob_low = dist_low;
const int64_t rd_new_eob_low =
RDCOST(rdmult, rate_coeff_eob_low, dist_new_eob_low);
if (rd_new_eob_low < rd_new_eob) {
lower_level_new_eob = 1;
rd_new_eob = rd_new_eob_low;
rate_coeff_eob = rate_coeff_eob_low;
dist_new_eob = dist_new_eob_low;
}
}
if (sharpness == 0 || abs_qc > 1) {
if (rd_low < rd) {
lower_level = 1;
rd = rd_low;
rate = rate_low;
dist = dist_low;
}
}
if (sharpness == 0 && rd_new_eob < rd) {
for (int ni = 0; ni < *nz_num; ++ni) {
int last_ci = nz_ci[ni];
levels[get_padded_idx(last_ci, bhl)] = 0;
qcoeff[last_ci] = 0;
dqcoeff[last_ci] = 0;
}
*eob = new_eob;
*nz_num = 0;
*accu_rate = rate_coeff_eob;
*accu_dist = dist_new_eob;
lower_level = lower_level_new_eob;
} else {
*accu_rate += rate;
*accu_dist += dist;
}
if (lower_level) {
qcoeff[ci] = qc_low;
dqcoeff[ci] = dqc_low;
levels[get_padded_idx(ci, bhl)] = AOMMIN(abs_qc_low, INT8_MAX);
}
if (qcoeff[ci]) {
nz_ci[*nz_num] = ci;
++*nz_num;
}
}
}
static INLINE void update_skip(int *accu_rate, int64_t accu_dist, int *eob,
int nz_num, int *nz_ci, int64_t rdmult,
int skip_cost, int non_skip_cost,
tran_low_t *qcoeff, tran_low_t *dqcoeff) {
const int64_t rd = RDCOST(rdmult, *accu_rate + non_skip_cost, accu_dist);
const int64_t rd_new_eob = RDCOST(rdmult, skip_cost, 0);
if (rd_new_eob < rd) {
for (int i = 0; i < nz_num; ++i) {
const int ci = nz_ci[i];
qcoeff[ci] = 0;
dqcoeff[ci] = 0;
// no need to set up levels because this is the last step
// levels[get_padded_idx(ci, bhl)] = 0;
}
*accu_rate = 0;
*eob = 0;
}
}
// TODO(angiebird): use this function whenever it's possible
static int get_tx_type_cost(const MACROBLOCK *x, const MACROBLOCKD *xd,
int plane, TX_SIZE tx_size, TX_TYPE tx_type,
int reduced_tx_set_used) {
if (plane > 0) return 0;
const TX_SIZE square_tx_size = txsize_sqr_map[tx_size];
const MB_MODE_INFO *mbmi = xd->mi[0];
const int is_inter = is_inter_block(mbmi);
if (get_ext_tx_types(tx_size, is_inter, reduced_tx_set_used) > 1 &&
!xd->lossless[xd->mi[0]->segment_id]) {
const int ext_tx_set =
get_ext_tx_set(tx_size, is_inter, reduced_tx_set_used);
if (is_inter) {
if (ext_tx_set > 0)
return x->mode_costs
.inter_tx_type_costs[ext_tx_set][square_tx_size][tx_type];
} else {
if (ext_tx_set > 0) {
PREDICTION_MODE intra_dir;
if (mbmi->filter_intra_mode_info.use_filter_intra)
intra_dir = fimode_to_intradir[mbmi->filter_intra_mode_info
.filter_intra_mode];
else
intra_dir = mbmi->mode;
return x->mode_costs.intra_tx_type_costs[ext_tx_set][square_tx_size]
[intra_dir][tx_type];
}
}
}
return 0;
}
int av1_optimize_txb(const struct AV1_COMP *cpi, MACROBLOCK *x, int plane,
int block, TX_SIZE tx_size, TX_TYPE tx_type,
const TXB_CTX *const txb_ctx, int *rate_cost,
int sharpness) {
MACROBLOCKD *xd = &x->e_mbd;
const struct macroblock_plane *p = &x->plane[plane];
const SCAN_ORDER *scan_order = get_scan(tx_size, tx_type);
const int16_t *scan = scan_order->scan;
const int shift = av1_get_tx_scale(tx_size);
int eob = p->eobs[block];
const int16_t *dequant = p->dequant_QTX;
const qm_val_t *iqmatrix =
av1_get_iqmatrix(&cpi->common.quant_params, xd, plane, tx_size, tx_type);
const qm_val_t *qmatrix =
cpi->oxcf.tune_cfg.dist_metric == AOM_DIST_METRIC_QM_PSNR
? av1_get_qmatrix(&cpi->common.quant_params, xd, plane, tx_size,
tx_type)
: NULL;
const int block_offset = BLOCK_OFFSET(block);
tran_low_t *qcoeff = p->qcoeff + block_offset;
tran_low_t *dqcoeff = p->dqcoeff + block_offset;
const tran_low_t *tcoeff = p->coeff + block_offset;
const CoeffCosts *coeff_costs = &x->coeff_costs;
// This function is not called if eob = 0.
assert(eob > 0);
const AV1_COMMON *cm = &cpi->common;
const PLANE_TYPE plane_type = get_plane_type(plane);
const TX_SIZE txs_ctx = get_txsize_entropy_ctx(tx_size);
const TX_CLASS tx_class = tx_type_to_class[tx_type];
const MB_MODE_INFO *mbmi = xd->mi[0];
const int bhl = get_txb_bhl(tx_size);
const int width = get_txb_wide(tx_size);
const int height = get_txb_high(tx_size);
assert(height == (1 << bhl));
const int is_inter = is_inter_block(mbmi);
const LV_MAP_COEFF_COST *txb_costs =
&coeff_costs->coeff_costs[txs_ctx][plane_type];
const int eob_multi_size = txsize_log2_minus4[tx_size];
const LV_MAP_EOB_COST *txb_eob_costs =
&coeff_costs->eob_costs[eob_multi_size][plane_type];
const int rshift = 2;
const int64_t rdmult =
(((int64_t)x->rdmult *
(plane_rd_mult[is_inter][plane_type] << (2 * (xd->bd - 8)))) +
2) >>
rshift;
uint8_t levels_buf[TX_PAD_2D];
uint8_t *const levels = set_levels(levels_buf, height);
if (eob > 1) av1_txb_init_levels(qcoeff, width, height, levels);
// TODO(angirbird): check iqmatrix
const int non_skip_cost = txb_costs->txb_skip_cost[txb_ctx->txb_skip_ctx][0];
const int skip_cost = txb_costs->txb_skip_cost[txb_ctx->txb_skip_ctx][1];
const int eob_cost = get_eob_cost(eob, txb_eob_costs, txb_costs, tx_class);
int accu_rate = eob_cost;
int64_t accu_dist = 0;
int si = eob - 1;
const int ci = scan[si];
const tran_low_t qc = qcoeff[ci];
const tran_low_t abs_qc = abs(qc);
const int sign = qc < 0;
const int max_nz_num = 2;
int nz_num = 1;
int nz_ci[3] = { ci, 0, 0 };
if (abs_qc >= 2) {
update_coeff_general(&accu_rate, &accu_dist, si, eob, tx_size, tx_class,
bhl, width, rdmult, shift, txb_ctx->dc_sign_ctx,
dequant, scan, txb_costs, tcoeff, qcoeff, dqcoeff,
levels, iqmatrix, qmatrix);
--si;
} else {
assert(abs_qc == 1);
const int coeff_ctx = get_lower_levels_ctx_eob(bhl, width, si);
accu_rate +=
get_coeff_cost_eob(ci, abs_qc, sign, coeff_ctx, txb_ctx->dc_sign_ctx,
txb_costs, bhl, tx_class);
const tran_low_t tqc = tcoeff[ci];
const tran_low_t dqc = dqcoeff[ci];
const int64_t dist = get_coeff_dist(tqc, dqc, shift, qmatrix, ci);
const int64_t dist0 = get_coeff_dist(tqc, 0, shift, qmatrix, ci);
accu_dist += dist - dist0;
--si;
}
#define UPDATE_COEFF_EOB_CASE(tx_class_literal) \
case tx_class_literal: \
for (; si >= 0 && nz_num <= max_nz_num; --si) { \
update_coeff_eob(&accu_rate, &accu_dist, &eob, &nz_num, nz_ci, si, \
tx_size, tx_class_literal, bhl, width, \
txb_ctx->dc_sign_ctx, rdmult, shift, dequant, scan, \
txb_eob_costs, txb_costs, tcoeff, qcoeff, dqcoeff, \
levels, sharpness, iqmatrix, qmatrix); \
} \
break
switch (tx_class) {
UPDATE_COEFF_EOB_CASE(TX_CLASS_2D);
UPDATE_COEFF_EOB_CASE(TX_CLASS_HORIZ);
UPDATE_COEFF_EOB_CASE(TX_CLASS_VERT);
#undef UPDATE_COEFF_EOB_CASE
default: assert(false);
}
if (si == -1 && nz_num <= max_nz_num && sharpness == 0) {
update_skip(&accu_rate, accu_dist, &eob, nz_num, nz_ci, rdmult, skip_cost,
non_skip_cost, qcoeff, dqcoeff);
}
#define UPDATE_COEFF_SIMPLE_CASE(tx_class_literal) \
case tx_class_literal: \
for (; si >= 1; --si) { \
update_coeff_simple(&accu_rate, si, eob, tx_size, tx_class_literal, bhl, \
rdmult, shift, dequant, scan, txb_costs, tcoeff, \
qcoeff, dqcoeff, levels, iqmatrix, qmatrix); \
} \
break
switch (tx_class) {
UPDATE_COEFF_SIMPLE_CASE(TX_CLASS_2D);
UPDATE_COEFF_SIMPLE_CASE(TX_CLASS_HORIZ);
UPDATE_COEFF_SIMPLE_CASE(TX_CLASS_VERT);
#undef UPDATE_COEFF_SIMPLE_CASE
default: assert(false);
}
// DC position
if (si == 0) {
// no need to update accu_dist because it's not used after this point
int64_t dummy_dist = 0;
update_coeff_general(&accu_rate, &dummy_dist, si, eob, tx_size, tx_class,
bhl, width, rdmult, shift, txb_ctx->dc_sign_ctx,
dequant, scan, txb_costs, tcoeff, qcoeff, dqcoeff,
levels, iqmatrix, qmatrix);
}
const int tx_type_cost = get_tx_type_cost(x, xd, plane, tx_size, tx_type,
cm->features.reduced_tx_set_used);
if (eob == 0)
accu_rate += skip_cost;
else
accu_rate += non_skip_cost + tx_type_cost;
p->eobs[block] = eob;
p->txb_entropy_ctx[block] =
av1_get_txb_entropy_context(qcoeff, scan_order, p->eobs[block]);
*rate_cost = accu_rate;
return eob;
}
static AOM_FORCE_INLINE int warehouse_efficients_txb(
const MACROBLOCK *x, const int plane, const int block,
const TX_SIZE tx_size, const TXB_CTX *const txb_ctx,
const struct macroblock_plane *p, const int eob,
const PLANE_TYPE plane_type, const LV_MAP_COEFF_COST *const coeff_costs,
const MACROBLOCKD *const xd, const TX_TYPE tx_type, const TX_CLASS tx_class,
int reduced_tx_set_used) {
const tran_low_t *const qcoeff = p->qcoeff + BLOCK_OFFSET(block);
const int txb_skip_ctx = txb_ctx->txb_skip_ctx;
const int bhl = get_txb_bhl(tx_size);
const int width = get_txb_wide(tx_size);
const int height = get_txb_high(tx_size);
const SCAN_ORDER *const scan_order = get_scan(tx_size, tx_type);
const int16_t *const scan = scan_order->scan;
uint8_t levels_buf[TX_PAD_2D];
uint8_t *const levels = set_levels(levels_buf, height);
DECLARE_ALIGNED(16, int8_t, coeff_contexts[MAX_TX_SQUARE]);
const int eob_multi_size = txsize_log2_minus4[tx_size];
const LV_MAP_EOB_COST *const eob_costs =
&x->coeff_costs.eob_costs[eob_multi_size][plane_type];
int cost = coeff_costs->txb_skip_cost[txb_skip_ctx][0];
av1_txb_init_levels(qcoeff, width, height, levels);
cost += get_tx_type_cost(x, xd, plane, tx_size, tx_type, reduced_tx_set_used);
cost += get_eob_cost(eob, eob_costs, coeff_costs, tx_class);
av1_get_nz_map_contexts(levels, scan, eob, tx_size, tx_class, coeff_contexts);
const int(*lps_cost)[COEFF_BASE_RANGE + 1 + COEFF_BASE_RANGE + 1] =
coeff_costs->lps_cost;
int c = eob - 1;
{
const int pos = scan[c];
const tran_low_t v = qcoeff[pos];
const int sign = AOMSIGN(v);
const int level = (v ^ sign) - sign;
const int coeff_ctx = coeff_contexts[pos];
cost += coeff_costs->base_eob_cost[coeff_ctx][AOMMIN(level, 3) - 1];
if (v) {
// sign bit cost
if (level > NUM_BASE_LEVELS) {
const int ctx = get_br_ctx_eob(pos, bhl, tx_class);
cost += get_br_cost(level, lps_cost[ctx]);
}
if (c) {
cost += av1_cost_literal(1);
} else {
const int sign01 = (sign ^ sign) - sign;
const int dc_sign_ctx = txb_ctx->dc_sign_ctx;
cost += coeff_costs->dc_sign_cost[dc_sign_ctx][sign01];
return cost;
}
}
}
const int(*base_cost)[8] = coeff_costs->base_cost;
for (c = eob - 2; c >= 1; --c) {
const int pos = scan[c];
const int coeff_ctx = coeff_contexts[pos];
const tran_low_t v = qcoeff[pos];
const int level = abs(v);
cost += base_cost[coeff_ctx][AOMMIN(level, 3)];
if (v) {
// sign bit cost
cost += av1_cost_literal(1);
if (level > NUM_BASE_LEVELS) {
const int ctx = get_br_ctx(levels, pos, bhl, tx_class);
cost += get_br_cost(level, lps_cost[ctx]);
}
}
}
// c == 0 after previous loop
{
const int pos = scan[c];
const tran_low_t v = qcoeff[pos];
const int coeff_ctx = coeff_contexts[pos];
const int sign = AOMSIGN(v);
const int level = (v ^ sign) - sign;
cost += base_cost[coeff_ctx][AOMMIN(level, 3)];
if (v) {
// sign bit cost
const int sign01 = (sign ^ sign) - sign;
const int dc_sign_ctx = txb_ctx->dc_sign_ctx;
cost += coeff_costs->dc_sign_cost[dc_sign_ctx][sign01];
if (level > NUM_BASE_LEVELS) {
const int ctx = get_br_ctx(levels, pos, bhl, tx_class);
cost += get_br_cost(level, lps_cost[ctx]);
}
}
}
return cost;
}
int av1_cost_coeffs_txb_estimate(const MACROBLOCK *x, const int plane,
const int block, const TX_SIZE tx_size,
const TX_TYPE tx_type) {
assert(plane == 0);
int cost = 0;
const struct macroblock_plane *p = &x->plane[plane];
const SCAN_ORDER *scan_order = get_scan(tx_size, tx_type);
const int16_t *scan = scan_order->scan;
tran_low_t *qcoeff = p->qcoeff + BLOCK_OFFSET(block);
int eob = p->eobs[block];
// coeffs
int c = eob - 1;
// eob
{
const int pos = scan[c];
const tran_low_t v = abs(qcoeff[pos]) - 1;
cost += (v << (AV1_PROB_COST_SHIFT + 2));
}
// other coeffs
for (c = eob - 2; c >= 0; c--) {
const int pos = scan[c];
const tran_low_t v = abs(qcoeff[pos]);
const int idx = AOMMIN(v, 14);
cost += costLUT[idx];
}
// const_term does not contain DC, and log(e) does not contain eob, so both
// (eob-1)
cost += (const_term + loge_par) * (eob - 1);
return cost;
}
static AOM_FORCE_INLINE int warehouse_efficients_txb_laplacian(
const MACROBLOCK *x, const int plane, const int block,
const TX_SIZE tx_size, const TXB_CTX *const txb_ctx, const int eob,
const PLANE_TYPE plane_type, const LV_MAP_COEFF_COST *const coeff_costs,
const MACROBLOCKD *const xd, const TX_TYPE tx_type, const TX_CLASS tx_class,
int reduced_tx_set_used) {
const int txb_skip_ctx = txb_ctx->txb_skip_ctx;
const int eob_multi_size = txsize_log2_minus4[tx_size];
const LV_MAP_EOB_COST *const eob_costs =
&x->coeff_costs.eob_costs[eob_multi_size][plane_type];
int cost = coeff_costs->txb_skip_cost[txb_skip_ctx][0];
cost += get_tx_type_cost(x, xd, plane, tx_size, tx_type, reduced_tx_set_used);
cost += get_eob_cost(eob, eob_costs, coeff_costs, tx_class);
cost += av1_cost_coeffs_txb_estimate(x, plane, block, tx_size, tx_type);
return cost;
}
int av1_cost_coeffs_txb(const MACROBLOCK *x, const int plane, const int block,
const TX_SIZE tx_size, const TX_TYPE tx_type,
const TXB_CTX *const txb_ctx, int reduced_tx_set_used) {
const struct macroblock_plane *p = &x->plane[plane];
const int eob = p->eobs[block];
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.coeff_costs[txs_ctx][plane_type];
if (eob == 0) {
return coeff_costs->txb_skip_cost[txb_ctx->txb_skip_ctx][1];
}
const MACROBLOCKD *const xd = &x->e_mbd;
const TX_CLASS tx_class = tx_type_to_class[tx_type];
return warehouse_efficients_txb(x, plane, block, tx_size, txb_ctx, p, eob,
plane_type, coeff_costs, xd, tx_type,
tx_class, reduced_tx_set_used);
}
int av1_cost_coeffs_txb_laplacian(const MACROBLOCK *x, const int plane,
const int block, const TX_SIZE tx_size,
const TX_TYPE tx_type,
const TXB_CTX *const txb_ctx,
const int reduced_tx_set_used,
const int adjust_eob) {
const struct macroblock_plane *p = &x->plane[plane];
int eob = p->eobs[block];
if (adjust_eob) {
const SCAN_ORDER *scan_order = get_scan(tx_size, tx_type);
const int16_t *scan = scan_order->scan;
tran_low_t *tcoeff = p->coeff + BLOCK_OFFSET(block);
tran_low_t *qcoeff = p->qcoeff + BLOCK_OFFSET(block);
tran_low_t *dqcoeff = p->dqcoeff + BLOCK_OFFSET(block);
update_coeff_eob_fast(&eob, av1_get_tx_scale(tx_size), p->dequant_QTX, scan,
tcoeff, qcoeff, dqcoeff);
p->eobs[block] = eob;
}
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.coeff_costs[txs_ctx][plane_type];
if (eob == 0) {
return coeff_costs->txb_skip_cost[txb_ctx->txb_skip_ctx][1];
}
const MACROBLOCKD *const xd = &x->e_mbd;
const TX_CLASS tx_class = tx_type_to_class[tx_type];
return warehouse_efficients_txb_laplacian(
x, plane, block, tx_size, txb_ctx, eob, plane_type, coeff_costs, xd,
tx_type, tx_class, reduced_tx_set_used);
}
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