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aomedia / aom / 9fa96234024a4fc052 / . / av1 / decoder / decodetxb.c
blob: 8e21a7fa7b4f074bef6d8976a207ea9d4bbaa388 [file] [log] [blame]
/*
* Copyright (c) 2017, 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/common/scan.h"
#include "av1/common/idct.h"
#include "av1/common/txb_common.h"
#include "av1/decoder/decodemv.h"
#include "av1/decoder/decodetxb.h"
#include "av1/decoder/dsubexp.h"
#include "av1/decoder/symbolrate.h"
#define ACCT_STR __func__
static int read_golomb(MACROBLOCKD *xd, aom_reader *r, FRAME_COUNTS *counts) {
#if !CONFIG_SYMBOLRATE
(void)counts;
#endif
int x = 1;
int length = 0;
int i = 0;
while (!i) {
i = av1_read_record_bit(counts, r, ACCT_STR);
++length;
if (length >= 32) {
aom_internal_error(xd->error_info, AOM_CODEC_CORRUPT_FRAME,
"Invalid length in read_golomb");
break;
}
}
for (i = 0; i < length - 1; ++i) {
x <<= 1;
x += av1_read_record_bit(counts, r, ACCT_STR);
}
return x - 1;
}
static INLINE int read_nz_map(aom_reader *const r, uint8_t *const levels,
const int plane, const int16_t *const scan,
const TX_SIZE tx_size, const TX_TYPE tx_type,
FRAME_CONTEXT *const fc,
FRAME_COUNTS *const counts) {
const TX_SIZE txs_ctx = get_txsize_context(tx_size);
const int bwl = b_width_log2_lookup[txsize_to_bsize[tx_size]] + 2;
const int height = tx_size_high[tx_size];
#if CONFIG_CTX1D
const int width = tx_size_wide[tx_size];
const int eob_offset = width + height;
const TX_CLASS tx_class = get_tx_class(tx_type);
const int seg_eob =
(tx_class == TX_CLASS_2D) ? tx_size_2d[tx_size] : eob_offset;
#else
const int seg_eob = tx_size_2d[tx_size];
#endif
const PLANE_TYPE plane_type = get_plane_type(plane);
unsigned int(*nz_map_count)[SIG_COEF_CONTEXTS][2] =
(counts) ? &counts->nz_map[txs_ctx][plane_type] : NULL;
#if !LV_MAP_PROB
aom_prob *nz_map = fc->nz_map[txs_ctx][plane_type];
aom_prob *eob_flag = fc->eob_flag[txs_ctx][plane_type];
#endif
int c;
for (c = 0; c < seg_eob; ++c) {
int is_nz;
int coeff_ctx = get_nz_map_ctx(levels, c, scan, bwl, height, tx_type, 1);
int eob_ctx = get_eob_ctx(scan[c], txs_ctx, tx_type);
if (c < seg_eob - 1) {
#if LV_MAP_PROB
is_nz = av1_read_record_bin(
counts, r, fc->nz_map_cdf[txs_ctx][plane_type][coeff_ctx], 2,
ACCT_STR);
#else
is_nz = aom_read(r, nz_map[coeff_ctx], ACCT_STR);
#endif
} else {
is_nz = 1;
}
// set non-zero coefficient map.
levels[scan[c]] = is_nz;
if (c == seg_eob - 1) {
++c;
break;
}
if (counts) ++(*nz_map_count)[coeff_ctx][is_nz];
if (is_nz) {
#if LV_MAP_PROB
int is_eob = av1_read_record_bin(
counts, r, fc->eob_flag_cdf[txs_ctx][plane_type][eob_ctx], 2,
ACCT_STR);
#else
int is_eob = aom_read(r, eob_flag[eob_ctx], ACCT_STR);
#endif
if (counts) ++counts->eob_flag[txs_ctx][plane_type][eob_ctx][is_eob];
if (is_eob) break;
}
}
return AOMMIN(seg_eob, c + 1);
}
#if CONFIG_CTX1D
static INLINE int read_nz_map_vert(aom_reader *r, uint8_t *levels, int plane,
const int16_t *scan, const int16_t *iscan,
TX_SIZE tx_size, TX_TYPE tx_type,
FRAME_CONTEXT *fc, FRAME_COUNTS *counts) {
const TX_SIZE txs_ctx = get_txsize_context(tx_size);
const PLANE_TYPE plane_type = get_plane_type(plane);
const TX_CLASS tx_class = get_tx_class(tx_type);
const int bwl = b_width_log2_lookup[txsize_to_bsize[tx_size]] + 2;
const int width = tx_size_wide[tx_size];
const int height = tx_size_high[tx_size];
int16_t eob_ls[MAX_HVTX_SIZE];
int eob = 0;
#if !LV_MAP_PROB
aom_prob *nz_map = fc->nz_map[txs_ctx][plane_type];
#endif
for (int col = 0; col < width; ++col) {
int el_ctx = get_empty_line_ctx(col, eob_ls);
#if LV_MAP_PROB
int empty_line = av1_read_record_bin(
counts, r, fc->empty_line_cdf[txs_ctx][plane_type][tx_class][el_ctx], 2,
ACCT_STR);
#else
int empty_line = aom_read(
r, fc->empty_line[txs_ctx][plane_type][tx_class][el_ctx], ACCT_STR);
#endif
if (counts)
++counts->empty_line[txs_ctx][plane_type][tx_class][el_ctx][empty_line];
if (!empty_line) {
int row;
for (row = 0; row < height; ++row) {
if (row + 1 != height) {
int coeff_idx = row * width + col;
int scan_idx = iscan[coeff_idx];
int coeff_ctx =
get_nz_map_ctx(levels, scan_idx, scan, bwl, height, tx_type, 1);
#if LV_MAP_PROB
int is_nz = av1_read_record_bin(
counts, r, fc->nz_map_cdf[txs_ctx][plane_type][coeff_ctx], 2,
ACCT_STR);
#else
int is_nz = aom_read(r, nz_map[coeff_ctx], ACCT_STR);
#endif
if (counts) ++counts->nz_map[txs_ctx][plane_type][coeff_ctx][is_nz];
levels[coeff_idx] = is_nz;
if (is_nz) {
eob = AOMMAX(eob, iscan[coeff_idx] + 1);
if (row + 1 != height) {
int eob_ctx = get_hv_eob_ctx(col, row, eob_ls);
#if LV_MAP_PROB
int is_eob = av1_read_record_bin(
counts, r,
fc->hv_eob_cdf[txs_ctx][plane_type][tx_class][eob_ctx], 2,
ACCT_STR);
#else
int is_eob = aom_read(
r, fc->hv_eob[txs_ctx][plane_type][tx_class][eob_ctx],
ACCT_STR);
#endif
if (counts)
++counts
->hv_eob[txs_ctx][plane_type][tx_class][eob_ctx][is_eob];
if (is_eob) break;
}
}
} else {
int coeff_idx = row * width + col;
levels[coeff_idx] = 1;
eob = AOMMAX(eob, iscan[coeff_idx] + 1);
}
}
eob_ls[col] = AOMMIN(height, row + 1);
} else {
eob_ls[col] = 0;
}
}
return eob;
}
static INLINE int read_nz_map_horiz(aom_reader *r, uint8_t *levels, int plane,
const int16_t *scan, const int16_t *iscan,
TX_SIZE tx_size, TX_TYPE tx_type,
FRAME_CONTEXT *fc, FRAME_COUNTS *counts) {
const TX_SIZE txs_ctx = get_txsize_context(tx_size);
const PLANE_TYPE plane_type = get_plane_type(plane);
const TX_CLASS tx_class = get_tx_class(tx_type);
const int bwl = b_width_log2_lookup[txsize_to_bsize[tx_size]] + 2;
const int width = tx_size_wide[tx_size];
const int height = tx_size_high[tx_size];
int16_t eob_ls[MAX_HVTX_SIZE];
int eob = 0;
#if !LV_MAP_PROB
aom_prob *nz_map = fc->nz_map[txs_ctx][plane_type];
#endif
for (int row = 0; row < height; ++row) {
int el_ctx = get_empty_line_ctx(row, eob_ls);
#if LV_MAP_PROB
int empty_line = av1_read_record_bin(
counts, r, fc->empty_line_cdf[txs_ctx][plane_type][tx_class][el_ctx], 2,
ACCT_STR);
#else
int empty_line = aom_read(
r, fc->empty_line[txs_ctx][plane_type][tx_class][el_ctx], ACCT_STR);
#endif
if (counts)
++counts->empty_line[txs_ctx][plane_type][tx_class][el_ctx][empty_line];
if (!empty_line) {
int col;
for (col = 0; col < width; ++col) {
if (col + 1 != width) {
int coeff_idx = row * width + col;
int scan_idx = iscan[coeff_idx];
int coeff_ctx =
get_nz_map_ctx(levels, scan_idx, scan, bwl, height, tx_type, 1);
#if LV_MAP_PROB
int is_nz = av1_read_record_bin(
counts, r, fc->nz_map_cdf[txs_ctx][plane_type][coeff_ctx], 2,
ACCT_STR);
#else
int is_nz = aom_read(r, nz_map[coeff_ctx], ACCT_STR);
#endif
if (counts) ++counts->nz_map[txs_ctx][plane_type][coeff_ctx][is_nz];
levels[coeff_idx] = is_nz;
if (is_nz) {
eob = AOMMAX(eob, iscan[coeff_idx] + 1);
int eob_ctx = get_hv_eob_ctx(row, col, eob_ls);
#if LV_MAP_PROB
int is_eob = av1_read_record_bin(
counts, r,
fc->hv_eob_cdf[txs_ctx][plane_type][tx_class][eob_ctx], 2,
ACCT_STR);
#else
int is_eob =
aom_read(r, fc->hv_eob[txs_ctx][plane_type][tx_class][eob_ctx],
ACCT_STR);
#endif
if (counts)
++counts->hv_eob[txs_ctx][plane_type][tx_class][eob_ctx][is_eob];
if (is_eob) break;
}
} else {
int coeff_idx = row * width + col;
levels[coeff_idx] = 1;
eob = AOMMAX(eob, iscan[coeff_idx] + 1);
}
}
eob_ls[row] = AOMMIN(width, col + 1);
} else {
eob_ls[row] = 0;
}
}
return eob;
}
#endif
#if CONFIG_EOB_FIRST
static INLINE int rec_eob_pos(int16_t eob_token, int16_t extra) {
int eob = k_eob_group_start[eob_token];
if (eob > 2) {
eob += extra;
}
return eob;
}
#endif
uint8_t av1_read_coeffs_txb(const AV1_COMMON *const cm, MACROBLOCKD *xd,
aom_reader *r, int blk_row, int blk_col, int block,
int plane, tran_low_t *tcoeffs, TXB_CTX *txb_ctx,
TX_SIZE tx_size, int16_t *max_scan_line, int *eob) {
FRAME_CONTEXT *ec_ctx = xd->tile_ctx;
FRAME_COUNTS *counts = xd->counts;
TX_SIZE txs_ctx = get_txsize_context(tx_size);
PLANE_TYPE plane_type = get_plane_type(plane);
#if !LV_MAP_PROB
aom_prob *nz_map = ec_ctx->nz_map[txs_ctx][plane_type];
aom_prob *eob_flag = ec_ctx->eob_flag[txs_ctx][plane_type];
#endif
MB_MODE_INFO *mbmi = &xd->mi[0]->mbmi;
const int seg_eob = tx_size_2d[tx_size];
int c = 0;
int update_eob = -1;
const int16_t *const dequant = xd->plane[plane].seg_dequant[mbmi->segment_id];
const int shift = av1_get_tx_scale(tx_size);
const int bwl = b_width_log2_lookup[txsize_to_bsize[tx_size]] + 2;
const int height = tx_size_high[tx_size];
int cul_level = 0;
uint8_t levels[64 * 64];
int8_t signs[64 * 64];
memset(tcoeffs, 0, sizeof(*tcoeffs) * seg_eob);
#if LV_MAP_PROB
int all_zero = av1_read_record_bin(
counts, r, ec_ctx->txb_skip_cdf[txs_ctx][txb_ctx->txb_skip_ctx], 2,
ACCT_STR);
#else
int all_zero =
aom_read(r, ec_ctx->txb_skip[txs_ctx][txb_ctx->txb_skip_ctx], ACCT_STR);
#endif
if (xd->counts)
++xd->counts->txb_skip[txs_ctx][txb_ctx->txb_skip_ctx][all_zero];
*eob = 0;
if (all_zero) {
*max_scan_line = 0;
#if CONFIG_TXK_SEL
if (plane == 0) mbmi->txk_type[(blk_row << 4) + blk_col] = DCT_DCT;
#endif
return 0;
}
memset(levels, 0, sizeof(levels[0]) * seg_eob);
memset(signs, 0, sizeof(signs[0]) * seg_eob);
(void)blk_row;
(void)blk_col;
#if CONFIG_TXK_SEL
av1_read_tx_type(cm, xd, blk_row, blk_col, block, plane,
get_min_tx_size(tx_size), r);
#endif
const TX_TYPE tx_type =
av1_get_tx_type(plane_type, xd, blk_row, blk_col, block, tx_size);
const SCAN_ORDER *const scan_order = get_scan(cm, tx_size, tx_type, mbmi);
const int16_t *scan = scan_order->scan;
#if CONFIG_EOB_FIRST
unsigned int(*nz_map_count)[SIG_COEF_CONTEXTS][2] =
(counts) ? &counts->nz_map[txs_ctx][plane_type] : NULL;
int16_t dummy;
int16_t max_eob_pt = get_eob_pos_token(seg_eob, &dummy);
int16_t eob_extra = 0;
int16_t eob_pt = 0;
int is_equal = 0;
for (int i = 1; i < max_eob_pt; i++) {
int eob_pos_ctx = get_eob_pos_ctx(i);
is_equal = av1_read_record_bin(
counts, r, ec_ctx->eob_flag_cdf[txs_ctx][plane_type][eob_pos_ctx], 2,
ACCT_STR);
// aom_read_symbol(r,
// ec_ctx->eob_flag_cdf[AOMMIN(txs_ctx,3)][plane_type][eob_pos_ctx], 2,
// ACCT_STR);
if (counts) ++counts->eob_flag[txs_ctx][plane_type][eob_pos_ctx][is_equal];
if (is_equal) {
eob_pt = i;
break;
}
}
if (is_equal == 0) {
eob_pt = max_eob_pt;
}
// printf("Dec: ");
if (k_eob_offset_bits[eob_pt] > 0) {
int eob_shift = k_eob_offset_bits[eob_pt] - 1;
int bit = av1_read_record_bin(
counts, r, ec_ctx->eob_extra_cdf[txs_ctx][plane_type][eob_pt], 2,
ACCT_STR);
if (counts) ++counts->eob_extra[txs_ctx][plane_type][eob_pt][bit];
if (bit) {
eob_extra += (1 << eob_shift);
}
for (int i = 1; i < k_eob_offset_bits[eob_pt]; i++) {
eob_shift = k_eob_offset_bits[eob_pt] - 1 - i;
bit = av1_read_record_bit(counts, r, ACCT_STR);
if (bit) {
eob_extra += (1 << eob_shift);
}
// printf("%d ", bit);
}
}
*eob = rec_eob_pos(eob_pt, eob_extra);
// printf("=>[%d, %d], (%d, %d)\n", seg_eob, *eob, eob_pt, eob_extra);
for (int i = 0; i < *eob; ++i) {
c = *eob - 1 - i;
int is_nz;
int coeff_ctx = get_nz_map_ctx(levels, c, scan, bwl, height, tx_type, 1);
// int eob_ctx = get_eob_ctx(tcoeffs, scan[c], txs_ctx, tx_type);
if (c < *eob - 1) {
#if LV_MAP_PROB
is_nz = av1_read_record_bin(
counts, r, ec_ctx->nz_map_cdf[txs_ctx][plane_type][coeff_ctx], 2,
ACCT_STR);
#else
is_nz = aom_read(r, nz_map[coeff_ctx], ACCT_STR);
#endif
} else {
is_nz = 1;
}
// set non-zero coefficient map.
levels[scan[c]] = is_nz;
if (counts) ++(*nz_map_count)[coeff_ctx][is_nz];
}
#else
#if CONFIG_CTX1D
const int16_t *iscan = scan_order->iscan;
TX_CLASS tx_class = get_tx_class(tx_type);
if (tx_class == TX_CLASS_2D) {
*eob =
read_nz_map(r, levels, plane, scan, tx_size, tx_type, ec_ctx, counts);
} else {
#if LV_MAP_PROB
const int eob_mode = av1_read_record_bin(
counts, r, ec_ctx->eob_mode_cdf[txs_ctx][plane_type][tx_class], 2,
ACCT_STR);
#else
const int eob_mode =
aom_read(r, ec_ctx->eob_mode[txs_ctx][plane_type][tx_class], ACCT_STR);
#endif
if (counts) ++counts->eob_mode[txs_ctx][plane_type][tx_class][eob_mode];
if (eob_mode == 0) {
*eob =
read_nz_map(r, levels, plane, scan, tx_size, tx_type, ec_ctx, counts);
} else {
assert(tx_class == TX_CLASS_VERT || tx_class == TX_CLASS_HORIZ);
if (tx_class == TX_CLASS_VERT)
*eob = read_nz_map_vert(r, levels, plane, scan, iscan, tx_size, tx_type,
ec_ctx, counts);
else
*eob = read_nz_map_horiz(r, levels, plane, scan, iscan, tx_size,
tx_type, ec_ctx, counts);
}
}
#else
*eob = read_nz_map(r, levels, plane, scan, tx_size, tx_type, ec_ctx, counts);
#endif
#endif
*max_scan_line = *eob;
int i;
for (i = 0; i < NUM_BASE_LEVELS; ++i) {
#if !LV_MAP_PROB
aom_prob *coeff_base = ec_ctx->coeff_base[txs_ctx][plane_type][i];
#endif
update_eob = 0;
for (c = *eob - 1; c >= 0; --c) {
uint8_t *const level = &levels[scan[c]];
int8_t *const sign = &signs[scan[c]];
int ctx;
if (*level <= i) continue;
ctx = get_base_ctx(levels, scan[c], bwl, height, i + 1);
#if LV_MAP_PROB
if (av1_read_record_bin(
counts, r, ec_ctx->coeff_base_cdf[txs_ctx][plane_type][i][ctx], 2,
ACCT_STR))
#else
if (aom_read(r, coeff_base[ctx], ACCT_STR))
#endif
{
assert(*level == i + 1);
cul_level += i + 1;
if (counts) ++counts->coeff_base[txs_ctx][plane_type][i][ctx][1];
if (c == 0) {
int dc_sign_ctx = txb_ctx->dc_sign_ctx;
#if LV_MAP_PROB
*sign = av1_read_record_bin(
counts, r, ec_ctx->dc_sign_cdf[plane_type][dc_sign_ctx], 2,
ACCT_STR);
#else
*sign =
aom_read(r, ec_ctx->dc_sign[plane_type][dc_sign_ctx], ACCT_STR);
#endif
if (counts) ++counts->dc_sign[plane_type][dc_sign_ctx][*sign];
} else {
*sign = av1_read_record_bit(counts, r, ACCT_STR);
}
continue;
}
*level = i + 2;
if (counts) ++counts->coeff_base[txs_ctx][plane_type][i][ctx][0];
// update the eob flag for coefficients with magnitude above 1.
update_eob = AOMMAX(update_eob, c);
}
}
for (c = update_eob; c >= 0; --c) {
uint8_t *const level = &levels[scan[c]];
int8_t *const sign = &signs[scan[c]];
int idx;
int ctx;
if (*level <= NUM_BASE_LEVELS) continue;
if (c == 0) {
int dc_sign_ctx = txb_ctx->dc_sign_ctx;
#if LV_MAP_PROB
*sign = av1_read_record_bin(
counts, r, ec_ctx->dc_sign_cdf[plane_type][dc_sign_ctx], 2, ACCT_STR);
#else
*sign = aom_read(r, ec_ctx->dc_sign[plane_type][dc_sign_ctx], ACCT_STR);
#endif
if (counts) ++counts->dc_sign[plane_type][dc_sign_ctx][*sign];
} else {
*sign = av1_read_record_bit(counts, r, ACCT_STR);
}
ctx = get_br_ctx(levels, scan[c], bwl, height);
#if BR_NODE
for (idx = 0; idx < BASE_RANGE_SETS; ++idx) {
#if LV_MAP_PROB
if (av1_read_record_bin(
counts, r, ec_ctx->coeff_br_cdf[txs_ctx][plane_type][idx][ctx], 2,
ACCT_STR))
#else // LV_MAP_PROB
if (aom_read(r, ec_ctx->coeff_br[txs_ctx][plane_type][idx][ctx],
ACCT_STR))
#endif // LV_MAP_PROB
{
int extra_bits = (1 << br_extra_bits[idx]) - 1;
// int br_offset = aom_read_literal(r, extra_bits, ACCT_STR);
int br_offset = 0;
int tok;
if (counts) ++counts->coeff_br[txs_ctx][plane_type][idx][ctx][1];
for (tok = 0; tok < extra_bits; ++tok) {
#if LV_MAP_PROB
if (av1_read_record_bin(
counts, r, ec_ctx->coeff_lps_cdf[txs_ctx][plane_type][ctx], 2,
ACCT_STR))
#else
if (aom_read(r, ec_ctx->coeff_lps[txs_ctx][plane_type][ctx],
ACCT_STR))
#endif
{
br_offset = tok;
if (counts) ++counts->coeff_lps[txs_ctx][plane_type][ctx][1];
break;
}
if (counts) ++counts->coeff_lps[txs_ctx][plane_type][ctx][0];
}
if (tok == extra_bits) br_offset = extra_bits;
int br_base = br_index_to_coeff[idx];
*level = NUM_BASE_LEVELS + 1 + br_base + br_offset;
cul_level += *level;
break;
}
if (counts) ++counts->coeff_br[txs_ctx][plane_type][idx][ctx][0];
}
if (idx < BASE_RANGE_SETS) continue;
#else
for (idx = 0; idx < COEFF_BASE_RANGE; ++idx) {
#if LV_MAP_PROB
if (av1_read_record_bin(counts, r,
ec_ctx->coeff_lps_cdf[txs_ctx][plane_type][ctx],
2, ACCT_STR))
#else
if (aom_read(r, ec_ctx->coeff_lps[txs_ctx][plane_type][ctx], ACCT_STR))
#endif
{
*level = idx + 1 + NUM_BASE_LEVELS;
cul_level += *level;
if (counts) ++counts->coeff_lps[txs_ctx][plane_type][ctx][1];
break;
}
if (counts) ++counts->coeff_lps[txs_ctx][plane_type][ctx][0];
}
if (idx < COEFF_BASE_RANGE) continue;
#endif
// decode 0-th order Golomb code
*level = COEFF_BASE_RANGE + 1 + NUM_BASE_LEVELS;
// Save golomb in tcoeffs because adding it to level may incur overflow
tcoeffs[scan[c]] = read_golomb(xd, r, counts);
cul_level += *level + tcoeffs[scan[c]];
}
for (c = 0; c < *eob; ++c) {
const int16_t dqv = (c == 0) ? dequant[0] : dequant[1];
const int level = levels[scan[c]];
const int16_t t = ((level + tcoeffs[scan[c]]) * dqv) >> shift;
#if CONFIG_SYMBOLRATE
av1_record_coeff(counts, level);
#endif
tcoeffs[scan[c]] = signs[scan[c]] ? -t : t;
}
cul_level = AOMMIN(63, cul_level);
// DC value
set_dc_sign(&cul_level, tcoeffs[0]);
return cul_level;
}
uint8_t av1_read_coeffs_txb_facade(AV1_COMMON *cm, MACROBLOCKD *xd,
aom_reader *r, int row, int col, int block,
int plane, tran_low_t *tcoeffs,
TX_SIZE tx_size, int16_t *max_scan_line,
int *eob) {
MB_MODE_INFO *mbmi = &xd->mi[0]->mbmi;
struct macroblockd_plane *pd = &xd->plane[plane];
const BLOCK_SIZE bsize = mbmi->sb_type;
const BLOCK_SIZE plane_bsize =
AOMMAX(BLOCK_4X4, get_plane_block_size(bsize, pd));
TXB_CTX txb_ctx;
get_txb_ctx(plane_bsize, tx_size, plane, pd->above_context + col,
pd->left_context + row, &txb_ctx);
uint8_t cul_level =
av1_read_coeffs_txb(cm, xd, r, row, col, block, plane, tcoeffs, &txb_ctx,
tx_size, max_scan_line, eob);
#if CONFIG_ADAPT_SCAN
PLANE_TYPE plane_type = get_plane_type(plane);
TX_TYPE tx_type = av1_get_tx_type(plane_type, xd, row, col, block, tx_size);
if (xd->counts && *eob > 0)
av1_update_scan_count_facade(cm, xd->counts, tx_size, tx_type, pd->dqcoeff,
*eob);
#endif
av1_set_contexts(xd, pd, plane, tx_size, cul_level, col, row);
return cul_level;
}
#if !LV_MAP_PROB
static void read_txb_probs(FRAME_CONTEXT *fc, const TX_SIZE tx_size,
aom_reader *r, FRAME_COUNTS *counts) {
#if !CONFIG_SYMBOLRATE
(void)counts;
#endif
int plane, ctx, level;
if (av1_read_record_bit(counts, r, ACCT_STR) == 0) return;
for (ctx = 0; ctx < TXB_SKIP_CONTEXTS; ++ctx)
av1_diff_update_prob(r, &fc->txb_skip[tx_size][ctx], ACCT_STR);
for (plane = 0; plane < PLANE_TYPES; ++plane)
for (ctx = 0; ctx < SIG_COEF_CONTEXTS; ++ctx)
av1_diff_update_prob(r, &fc->nz_map[tx_size][plane][ctx], ACCT_STR);
for (plane = 0; plane < PLANE_TYPES; ++plane)
for (ctx = 0; ctx < EOB_COEF_CONTEXTS; ++ctx)
av1_diff_update_prob(r, &fc->eob_flag[tx_size][plane][ctx], ACCT_STR);
for (level = 0; level < NUM_BASE_LEVELS; ++level)
for (plane = 0; plane < PLANE_TYPES; ++plane)
for (ctx = 0; ctx < COEFF_BASE_CONTEXTS; ++ctx)
av1_diff_update_prob(r, &fc->coeff_base[tx_size][plane][level][ctx],
ACCT_STR);
for (plane = 0; plane < PLANE_TYPES; ++plane)
for (ctx = 0; ctx < LEVEL_CONTEXTS; ++ctx)
av1_diff_update_prob(r, &fc->coeff_lps[tx_size][plane][ctx], ACCT_STR);
}
void av1_read_txb_probs(FRAME_CONTEXT *fc, TX_MODE tx_mode, aom_reader *r,
FRAME_COUNTS *counts) {
const TX_SIZE max_tx_size = tx_mode_to_biggest_tx_size[tx_mode];
TX_SIZE tx_size;
int ctx, plane;
for (plane = 0; plane < PLANE_TYPES; ++plane)
for (ctx = 0; ctx < DC_SIGN_CONTEXTS; ++ctx)
av1_diff_update_prob(r, &fc->dc_sign[plane][ctx], ACCT_STR);
for (tx_size = TX_4X4; tx_size <= max_tx_size; ++tx_size)
read_txb_probs(fc, tx_size, r, counts);
}
#endif // !LV_MAP_PROB