Misc. refactoring of loop restoration

Streamilines the functions and data structures to make it
easy to add new restore options.

Change-Id: Ib00638a5749e6c38c2455f3e3142b1025e6e0624
This commit is contained in:
Debargha Mukherjee 2016-09-17 13:16:58 -07:00
Родитель bda8d61ed1
Коммит 5d89a63a7e
7 изменённых файлов: 338 добавлений и 512 удалений

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@ -85,14 +85,10 @@ void av1_free_ref_frame_buffers(BufferPool *pool) {
void av1_free_restoration_buffers(AV1_COMMON *cm) {
aom_free(cm->rst_info.restoration_type);
cm->rst_info.restoration_type = NULL;
aom_free(cm->rst_info.bilateral_level);
cm->rst_info.bilateral_level = NULL;
aom_free(cm->rst_info.vfilter);
cm->rst_info.vfilter = NULL;
aom_free(cm->rst_info.hfilter);
cm->rst_info.hfilter = NULL;
aom_free(cm->rst_info.wiener_level);
cm->rst_info.wiener_level = NULL;
aom_free(cm->rst_info.bilateral_info);
cm->rst_info.bilateral_info = NULL;
aom_free(cm->rst_info.wiener_info);
cm->rst_info.wiener_info = NULL;
}
#endif // CONFIG_LOOP_RESTORATION

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@ -1655,9 +1655,11 @@ void av1_setup_past_independence(AV1_COMMON *cm) {
// To force update of the sharpness
lf->last_sharpness_level = -1;
#if CONFIG_LOOP_RESTORATION
if (cm->rst_info.bilateral_level) {
if (cm->rst_info.bilateral_info) {
int s;
for (i = 0; i < cm->rst_internal.ntiles; ++i)
cm->rst_info.bilateral_level[i] = -1;
for (s = 0; s < BILATERAL_SUBTILES; ++s)
cm->rst_info.bilateral_info[i].level[s] = -1;
}
#endif // CONFIG_LOOP_RESTORATION

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@ -151,33 +151,35 @@ void av1_loop_restoration_init(RestorationInternal *rst, RestorationInfo *rsi,
&rst->nhtiles, &rst->nvtiles);
if (rsi->frame_restoration_type == RESTORE_WIENER) {
for (tile_idx = 0; tile_idx < rst->ntiles; ++tile_idx) {
rsi->vfilter[tile_idx][RESTORATION_HALFWIN] =
rsi->hfilter[tile_idx][RESTORATION_HALFWIN] = RESTORATION_FILT_STEP;
rsi->wiener_info[tile_idx].vfilter[RESTORATION_HALFWIN] =
rsi->wiener_info[tile_idx].hfilter[RESTORATION_HALFWIN] =
RESTORATION_FILT_STEP;
for (i = 0; i < RESTORATION_HALFWIN; ++i) {
rsi->vfilter[tile_idx][RESTORATION_WIN - 1 - i] =
rsi->vfilter[tile_idx][i];
rsi->hfilter[tile_idx][RESTORATION_WIN - 1 - i] =
rsi->hfilter[tile_idx][i];
rsi->vfilter[tile_idx][RESTORATION_HALFWIN] -=
2 * rsi->vfilter[tile_idx][i];
rsi->hfilter[tile_idx][RESTORATION_HALFWIN] -=
2 * rsi->hfilter[tile_idx][i];
rsi->wiener_info[tile_idx].vfilter[RESTORATION_WIN - 1 - i] =
rsi->wiener_info[tile_idx].vfilter[i];
rsi->wiener_info[tile_idx].hfilter[RESTORATION_WIN - 1 - i] =
rsi->wiener_info[tile_idx].hfilter[i];
rsi->wiener_info[tile_idx].vfilter[RESTORATION_HALFWIN] -=
2 * rsi->wiener_info[tile_idx].vfilter[i];
rsi->wiener_info[tile_idx].hfilter[RESTORATION_HALFWIN] -=
2 * rsi->wiener_info[tile_idx].hfilter[i];
}
}
} else if (rsi->frame_restoration_type == RESTORE_SWITCHABLE) {
for (tile_idx = 0; tile_idx < rst->ntiles; ++tile_idx) {
if (rsi->restoration_type[tile_idx] == RESTORE_WIENER) {
rsi->vfilter[tile_idx][RESTORATION_HALFWIN] =
rsi->hfilter[tile_idx][RESTORATION_HALFWIN] = RESTORATION_FILT_STEP;
rsi->wiener_info[tile_idx].vfilter[RESTORATION_HALFWIN] =
rsi->wiener_info[tile_idx].hfilter[RESTORATION_HALFWIN] =
RESTORATION_FILT_STEP;
for (i = 0; i < RESTORATION_HALFWIN; ++i) {
rsi->vfilter[tile_idx][RESTORATION_WIN - 1 - i] =
rsi->vfilter[tile_idx][i];
rsi->hfilter[tile_idx][RESTORATION_WIN - 1 - i] =
rsi->hfilter[tile_idx][i];
rsi->vfilter[tile_idx][RESTORATION_HALFWIN] -=
2 * rsi->vfilter[tile_idx][i];
rsi->hfilter[tile_idx][RESTORATION_HALFWIN] -=
2 * rsi->hfilter[tile_idx][i];
rsi->wiener_info[tile_idx].vfilter[RESTORATION_WIN - 1 - i] =
rsi->wiener_info[tile_idx].vfilter[i];
rsi->wiener_info[tile_idx].hfilter[RESTORATION_WIN - 1 - i] =
rsi->wiener_info[tile_idx].hfilter[i];
rsi->wiener_info[tile_idx].vfilter[RESTORATION_HALFWIN] -=
2 * rsi->wiener_info[tile_idx].vfilter[i];
rsi->wiener_info[tile_idx].hfilter[RESTORATION_HALFWIN] -=
2 * rsi->wiener_info[tile_idx].hfilter[i];
}
}
}
@ -195,8 +197,7 @@ static void loop_bilateral_filter_tile(uint8_t *data, int tile_idx, int width,
for (subtile_idx = 0; subtile_idx < BILATERAL_SUBTILES; ++subtile_idx) {
uint8_t *data_p, *tmpdata_p;
const int level =
rst->rsi->bilateral_level[tile_idx * BILATERAL_SUBTILES + subtile_idx];
const int level = rst->rsi->bilateral_info[tile_idx].level[subtile_idx];
uint8_t(*wx_lut)[RESTORATION_WIN];
uint8_t *wr_lut_;
@ -282,7 +283,7 @@ static void loop_wiener_filter_tile(uint8_t *data, int tile_idx, int width,
int h_start, h_end, v_start, v_end;
uint8_t *data_p, *tmpdata_p;
if (rst->rsi->wiener_level[tile_idx] == 0) return;
if (rst->rsi->wiener_info[tile_idx].level == 0) return;
// Filter row-wise
av1_get_rest_tile_limits(tile_idx, 0, 0, rst->nhtiles, rst->nvtiles,
tile_width, tile_height, width, height, 1, 0,
@ -291,7 +292,8 @@ static void loop_wiener_filter_tile(uint8_t *data, int tile_idx, int width,
tmpdata_p = tmpdata + h_start + v_start * tmpstride;
for (i = 0; i < (v_end - v_start); ++i) {
for (j = 0; j < (h_end - h_start); ++j) {
*tmpdata_p++ = hor_sym_filter(data_p++, rst->rsi->hfilter[tile_idx]);
*tmpdata_p++ =
hor_sym_filter(data_p++, rst->rsi->wiener_info[tile_idx].hfilter);
}
data_p += stride - (h_end - h_start);
tmpdata_p += tmpstride - (h_end - h_start);
@ -304,8 +306,8 @@ static void loop_wiener_filter_tile(uint8_t *data, int tile_idx, int width,
tmpdata_p = tmpdata + h_start + v_start * tmpstride;
for (i = 0; i < (v_end - v_start); ++i) {
for (j = 0; j < (h_end - h_start); ++j) {
*data_p++ =
ver_sym_filter(tmpdata_p++, tmpstride, rst->rsi->vfilter[tile_idx]);
*data_p++ = ver_sym_filter(tmpdata_p++, tmpstride,
rst->rsi->wiener_info[tile_idx].vfilter);
}
data_p += stride - (h_end - h_start);
tmpdata_p += tmpstride - (h_end - h_start);
@ -370,8 +372,7 @@ static void loop_bilateral_filter_tile_highbd(uint16_t *data, int tile_idx,
for (subtile_idx = 0; subtile_idx < BILATERAL_SUBTILES; ++subtile_idx) {
uint16_t *data_p, *tmpdata_p;
const int level =
rst->rsi->bilateral_level[tile_idx * BILATERAL_SUBTILES + subtile_idx];
const int level = rst->rsi->bilateral_info[tile_idx].level[subtile_idx];
uint8_t(*wx_lut)[RESTORATION_WIN];
uint8_t *wr_lut_;
@ -462,7 +463,7 @@ static void loop_wiener_filter_tile_highbd(uint16_t *data, int tile_idx,
int i, j;
uint16_t *data_p, *tmpdata_p;
if (rst->rsi->wiener_level[tile_idx] == 0) return;
if (rst->rsi->wiener_info[tile_idx].level == 0) return;
// Filter row-wise
av1_get_rest_tile_limits(tile_idx, 0, 0, rst->nhtiles, rst->nvtiles,
tile_width, tile_height, width, height, 1, 0,
@ -472,7 +473,7 @@ static void loop_wiener_filter_tile_highbd(uint16_t *data, int tile_idx,
for (i = 0; i < (v_end - v_start); ++i) {
for (j = 0; j < (h_end - h_start); ++j) {
*tmpdata_p++ = hor_sym_filter_highbd(
data_p++, rst->rsi->hfilter[tile_idx], bit_depth);
data_p++, rst->rsi->wiener_info[tile_idx].hfilter, bit_depth);
}
data_p += stride - (h_end - h_start);
tmpdata_p += tmpstride - (h_end - h_start);
@ -486,7 +487,8 @@ static void loop_wiener_filter_tile_highbd(uint16_t *data, int tile_idx,
for (i = 0; i < (v_end - v_start); ++i) {
for (j = 0; j < (h_end - h_start); ++j) {
*data_p++ = ver_sym_filter_highbd(tmpdata_p++, tmpstride,
rst->rsi->vfilter[tile_idx], bit_depth);
rst->rsi->wiener_info[tile_idx].vfilter,
bit_depth);
}
data_p += stride - (h_end - h_start);
tmpdata_p += tmpstride - (h_end - h_start);

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@ -57,14 +57,20 @@ extern "C" {
#define WIENER_FILT_TAP2_MAXV \
(WIENER_FILT_TAP2_MINV - 1 + (1 << WIENER_FILT_TAP2_BITS))
typedef struct { int level[BILATERAL_SUBTILES]; } BilateralInfo;
typedef struct {
int level;
int vfilter[RESTORATION_WIN], hfilter[RESTORATION_WIN];
} WienerInfo;
typedef struct {
RestorationType frame_restoration_type;
RestorationType *restoration_type;
// Bilateral filter
int *bilateral_level;
BilateralInfo *bilateral_info;
// Wiener filter
int *wiener_level;
int (*vfilter)[RESTORATION_WIN], (*hfilter)[RESTORATION_WIN];
WienerInfo *wiener_info;
} RestorationInfo;
typedef struct {

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@ -1920,101 +1920,96 @@ static void decode_restoration(AV1_COMMON *cm, aom_reader *rb) {
rsi->restoration_type = (RestorationType *)aom_realloc(
rsi->restoration_type, sizeof(*rsi->restoration_type) * ntiles);
if (rsi->frame_restoration_type == RESTORE_SWITCHABLE) {
rsi->bilateral_level = (int *)aom_realloc(
rsi->bilateral_level,
sizeof(*rsi->bilateral_level) * ntiles * BILATERAL_SUBTILES);
assert(rsi->bilateral_level != NULL);
rsi->wiener_level = (int *)aom_realloc(
rsi->wiener_level, sizeof(*rsi->wiener_level) * ntiles);
assert(rsi->wiener_level != NULL);
rsi->vfilter = (int(*)[RESTORATION_WIN])aom_realloc(
rsi->vfilter, sizeof(*rsi->vfilter) * ntiles);
assert(rsi->vfilter != NULL);
rsi->hfilter = (int(*)[RESTORATION_WIN])aom_realloc(
rsi->hfilter, sizeof(*rsi->hfilter) * ntiles);
assert(rsi->hfilter != NULL);
rsi->bilateral_info = (BilateralInfo *)aom_realloc(
rsi->bilateral_info, sizeof(*rsi->bilateral_info) * ntiles);
assert(rsi->bilateral_info != NULL);
rsi->wiener_info = (WienerInfo *)aom_realloc(
rsi->wiener_info, sizeof(*rsi->wiener_info) * ntiles);
assert(rsi->wiener_info != NULL);
for (i = 0; i < ntiles; ++i) {
rsi->restoration_type[i] = aom_read_tree(
rb, av1_switchable_restore_tree, cm->fc->switchable_restore_prob);
if (rsi->restoration_type[i] == RESTORE_WIENER) {
rsi->wiener_level[i] = 1;
rsi->vfilter[i][0] = aom_read_literal(rb, WIENER_FILT_TAP0_BITS) +
rsi->wiener_info[i].level = 1;
rsi->wiener_info[i].vfilter[0] =
aom_read_literal(rb, WIENER_FILT_TAP0_BITS) +
WIENER_FILT_TAP0_MINV;
rsi->vfilter[i][1] = aom_read_literal(rb, WIENER_FILT_TAP1_BITS) +
rsi->wiener_info[i].vfilter[1] =
aom_read_literal(rb, WIENER_FILT_TAP1_BITS) +
WIENER_FILT_TAP1_MINV;
rsi->vfilter[i][2] = aom_read_literal(rb, WIENER_FILT_TAP2_BITS) +
rsi->wiener_info[i].vfilter[2] =
aom_read_literal(rb, WIENER_FILT_TAP2_BITS) +
WIENER_FILT_TAP2_MINV;
rsi->hfilter[i][0] = aom_read_literal(rb, WIENER_FILT_TAP0_BITS) +
rsi->wiener_info[i].hfilter[0] =
aom_read_literal(rb, WIENER_FILT_TAP0_BITS) +
WIENER_FILT_TAP0_MINV;
rsi->hfilter[i][1] = aom_read_literal(rb, WIENER_FILT_TAP1_BITS) +
rsi->wiener_info[i].hfilter[1] =
aom_read_literal(rb, WIENER_FILT_TAP1_BITS) +
WIENER_FILT_TAP1_MINV;
rsi->hfilter[i][2] = aom_read_literal(rb, WIENER_FILT_TAP2_BITS) +
rsi->wiener_info[i].hfilter[2] =
aom_read_literal(rb, WIENER_FILT_TAP2_BITS) +
WIENER_FILT_TAP2_MINV;
} else if (rsi->restoration_type[i] == RESTORE_BILATERAL) {
int s;
for (s = 0; s < BILATERAL_SUBTILES; ++s) {
const int j = i * BILATERAL_SUBTILES + s;
#if BILATERAL_SUBTILES == 0
rsi->bilateral_level[j] =
rsi->bilateral_info[i].level[s] =
aom_read_literal(rb, av1_bilateral_level_bits(cm));
#else
if (aom_read(rb, RESTORE_NONE_BILATERAL_PROB)) {
rsi->bilateral_level[j] =
rsi->bilateral_info[i].level[s] =
aom_read_literal(rb, av1_bilateral_level_bits(cm));
} else {
rsi->bilateral_level[j] = -1;
rsi->bilateral_info[i].level[s] = -1;
}
#endif
}
}
}
} else if (rsi->frame_restoration_type == RESTORE_WIENER) {
rsi->wiener_level = (int *)aom_realloc(
rsi->wiener_level, sizeof(*rsi->wiener_level) * ntiles);
assert(rsi->wiener_level != NULL);
rsi->vfilter = (int(*)[RESTORATION_WIN])aom_realloc(
rsi->vfilter, sizeof(*rsi->vfilter) * ntiles);
assert(rsi->vfilter != NULL);
rsi->hfilter = (int(*)[RESTORATION_WIN])aom_realloc(
rsi->hfilter, sizeof(*rsi->hfilter) * ntiles);
assert(rsi->hfilter != NULL);
rsi->wiener_info = (WienerInfo *)aom_realloc(
rsi->wiener_info, sizeof(*rsi->wiener_info) * ntiles);
assert(rsi->wiener_info != NULL);
for (i = 0; i < ntiles; ++i) {
if (aom_read(rb, RESTORE_NONE_WIENER_PROB)) {
rsi->wiener_level[i] = 1;
rsi->wiener_info[i].level = 1;
rsi->restoration_type[i] = RESTORE_WIENER;
rsi->vfilter[i][0] = aom_read_literal(rb, WIENER_FILT_TAP0_BITS) +
rsi->wiener_info[i].vfilter[0] =
aom_read_literal(rb, WIENER_FILT_TAP0_BITS) +
WIENER_FILT_TAP0_MINV;
rsi->vfilter[i][1] = aom_read_literal(rb, WIENER_FILT_TAP1_BITS) +
rsi->wiener_info[i].vfilter[1] =
aom_read_literal(rb, WIENER_FILT_TAP1_BITS) +
WIENER_FILT_TAP1_MINV;
rsi->vfilter[i][2] = aom_read_literal(rb, WIENER_FILT_TAP2_BITS) +
rsi->wiener_info[i].vfilter[2] =
aom_read_literal(rb, WIENER_FILT_TAP2_BITS) +
WIENER_FILT_TAP2_MINV;
rsi->hfilter[i][0] = aom_read_literal(rb, WIENER_FILT_TAP0_BITS) +
rsi->wiener_info[i].hfilter[0] =
aom_read_literal(rb, WIENER_FILT_TAP0_BITS) +
WIENER_FILT_TAP0_MINV;
rsi->hfilter[i][1] = aom_read_literal(rb, WIENER_FILT_TAP1_BITS) +
rsi->wiener_info[i].hfilter[1] =
aom_read_literal(rb, WIENER_FILT_TAP1_BITS) +
WIENER_FILT_TAP1_MINV;
rsi->hfilter[i][2] = aom_read_literal(rb, WIENER_FILT_TAP2_BITS) +
rsi->wiener_info[i].hfilter[2] =
aom_read_literal(rb, WIENER_FILT_TAP2_BITS) +
WIENER_FILT_TAP2_MINV;
} else {
rsi->wiener_level[i] = 0;
rsi->wiener_info[i].level = 0;
rsi->restoration_type[i] = RESTORE_NONE;
}
}
} else {
rsi->frame_restoration_type = RESTORE_BILATERAL;
rsi->bilateral_level = (int *)aom_realloc(
rsi->bilateral_level,
sizeof(*rsi->bilateral_level) * ntiles * BILATERAL_SUBTILES);
assert(rsi->bilateral_level != NULL);
rsi->bilateral_info = (BilateralInfo *)aom_realloc(
rsi->bilateral_info, sizeof(*rsi->bilateral_info) * ntiles);
assert(rsi->bilateral_info != NULL);
for (i = 0; i < ntiles; ++i) {
int s;
rsi->restoration_type[i] = RESTORE_BILATERAL;
for (s = 0; s < BILATERAL_SUBTILES; ++s) {
const int j = i * BILATERAL_SUBTILES + s;
if (aom_read(rb, RESTORE_NONE_BILATERAL_PROB)) {
rsi->bilateral_level[j] =
rsi->bilateral_info[i].level[s] =
aom_read_literal(rb, av1_bilateral_level_bits(cm));
} else {
rsi->bilateral_level[j] = -1;
rsi->bilateral_info[i].level[s] = -1;
}
}
}

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@ -2455,74 +2455,83 @@ static void encode_restoration_mode(AV1_COMMON *cm,
static void encode_restoration(AV1_COMMON *cm, aom_writer *wb) {
int i;
RestorationInfo *rst = &cm->rst_info;
if (rst->frame_restoration_type != RESTORE_NONE) {
if (rst->frame_restoration_type == RESTORE_SWITCHABLE) {
RestorationInfo *rsi = &cm->rst_info;
if (rsi->frame_restoration_type != RESTORE_NONE) {
if (rsi->frame_restoration_type == RESTORE_SWITCHABLE) {
// RESTORE_SWITCHABLE
for (i = 0; i < cm->rst_internal.ntiles; ++i) {
av1_write_token(
wb, av1_switchable_restore_tree, cm->fc->switchable_restore_prob,
&switchable_restore_encodings[rst->restoration_type[i]]);
if (rst->restoration_type[i] == RESTORE_NONE) {
} else if (rst->restoration_type[i] == RESTORE_BILATERAL) {
&switchable_restore_encodings[rsi->restoration_type[i]]);
if (rsi->restoration_type[i] == RESTORE_BILATERAL) {
int s;
for (s = 0; s < BILATERAL_SUBTILES; ++s) {
const int j = i * BILATERAL_SUBTILES + s;
#if BILATERAL_SUBTILES == 0
aom_write_literal(wb, rst->bilateral_level[j],
aom_write_literal(wb, rsi->bilateral_info[i].level[s],
av1_bilateral_level_bits(cm));
#else
aom_write(wb, rst->bilateral_level[j] >= 0,
aom_write(wb, rsi->bilateral_info[i].level[s] >= 0,
RESTORE_NONE_BILATERAL_PROB);
if (rst->bilateral_level[j] >= 0) {
aom_write_literal(wb, rst->bilateral_level[j],
if (rsi->bilateral_info[i].level[s] >= 0) {
aom_write_literal(wb, rsi->bilateral_info[i].level[s],
av1_bilateral_level_bits(cm));
}
#endif
}
} else {
aom_write_literal(wb, rst->vfilter[i][0] - WIENER_FILT_TAP0_MINV,
} else if (rsi->restoration_type[i] == RESTORE_WIENER) {
aom_write_literal(
wb, rsi->wiener_info[i].vfilter[0] - WIENER_FILT_TAP0_MINV,
WIENER_FILT_TAP0_BITS);
aom_write_literal(wb, rst->vfilter[i][1] - WIENER_FILT_TAP1_MINV,
aom_write_literal(
wb, rsi->wiener_info[i].vfilter[1] - WIENER_FILT_TAP1_MINV,
WIENER_FILT_TAP1_BITS);
aom_write_literal(wb, rst->vfilter[i][2] - WIENER_FILT_TAP2_MINV,
aom_write_literal(
wb, rsi->wiener_info[i].vfilter[2] - WIENER_FILT_TAP2_MINV,
WIENER_FILT_TAP2_BITS);
aom_write_literal(wb, rst->hfilter[i][0] - WIENER_FILT_TAP0_MINV,
aom_write_literal(
wb, rsi->wiener_info[i].hfilter[0] - WIENER_FILT_TAP0_MINV,
WIENER_FILT_TAP0_BITS);
aom_write_literal(wb, rst->hfilter[i][1] - WIENER_FILT_TAP1_MINV,
aom_write_literal(
wb, rsi->wiener_info[i].hfilter[1] - WIENER_FILT_TAP1_MINV,
WIENER_FILT_TAP1_BITS);
aom_write_literal(wb, rst->hfilter[i][2] - WIENER_FILT_TAP2_MINV,
aom_write_literal(
wb, rsi->wiener_info[i].hfilter[2] - WIENER_FILT_TAP2_MINV,
WIENER_FILT_TAP2_BITS);
}
}
} else if (rst->frame_restoration_type == RESTORE_BILATERAL) {
} else if (rsi->frame_restoration_type == RESTORE_BILATERAL) {
for (i = 0; i < cm->rst_internal.ntiles; ++i) {
int s;
for (s = 0; s < BILATERAL_SUBTILES; ++s) {
const int j = i * BILATERAL_SUBTILES + s;
aom_write(wb, rst->bilateral_level[j] >= 0,
aom_write(wb, rsi->bilateral_info[i].level[s] >= 0,
RESTORE_NONE_BILATERAL_PROB);
if (rst->bilateral_level[j] >= 0) {
aom_write_literal(wb, rst->bilateral_level[j],
if (rsi->bilateral_info[i].level[s] >= 0) {
aom_write_literal(wb, rsi->bilateral_info[i].level[s],
av1_bilateral_level_bits(cm));
}
}
}
} else if (rst->frame_restoration_type == RESTORE_WIENER) {
} else if (rsi->frame_restoration_type == RESTORE_WIENER) {
for (i = 0; i < cm->rst_internal.ntiles; ++i) {
aom_write(wb, rst->wiener_level[i] != 0, RESTORE_NONE_WIENER_PROB);
if (rst->wiener_level[i]) {
aom_write_literal(wb, rst->vfilter[i][0] - WIENER_FILT_TAP0_MINV,
aom_write(wb, rsi->wiener_info[i].level != 0, RESTORE_NONE_WIENER_PROB);
if (rsi->wiener_info[i].level) {
aom_write_literal(
wb, rsi->wiener_info[i].vfilter[0] - WIENER_FILT_TAP0_MINV,
WIENER_FILT_TAP0_BITS);
aom_write_literal(wb, rst->vfilter[i][1] - WIENER_FILT_TAP1_MINV,
aom_write_literal(
wb, rsi->wiener_info[i].vfilter[1] - WIENER_FILT_TAP1_MINV,
WIENER_FILT_TAP1_BITS);
aom_write_literal(wb, rst->vfilter[i][2] - WIENER_FILT_TAP2_MINV,
aom_write_literal(
wb, rsi->wiener_info[i].vfilter[2] - WIENER_FILT_TAP2_MINV,
WIENER_FILT_TAP2_BITS);
aom_write_literal(wb, rst->hfilter[i][0] - WIENER_FILT_TAP0_MINV,
aom_write_literal(
wb, rsi->wiener_info[i].hfilter[0] - WIENER_FILT_TAP0_MINV,
WIENER_FILT_TAP0_BITS);
aom_write_literal(wb, rst->hfilter[i][1] - WIENER_FILT_TAP1_MINV,
aom_write_literal(
wb, rsi->wiener_info[i].hfilter[1] - WIENER_FILT_TAP1_MINV,
WIENER_FILT_TAP1_BITS);
aom_write_literal(wb, rst->hfilter[i][2] - WIENER_FILT_TAP2_MINV,
aom_write_literal(
wb, rsi->wiener_info[i].hfilter[2] - WIENER_FILT_TAP2_MINV,
WIENER_FILT_TAP2_BITS);
}
}

Просмотреть файл

@ -28,6 +28,11 @@
#include "av1/encoder/pickrst.h"
#include "av1/encoder/quantize.h"
typedef double (*search_restore_type)(const YV12_BUFFER_CONFIG *src,
AV1_COMP *cpi, int filter_level,
int partial_frame, RestorationInfo *info,
double *best_tile_cost);
const int frame_level_restore_bits[RESTORE_TYPES] = { 2, 2, 2, 2 };
static int64_t sse_restoration_tile(const YV12_BUFFER_CONFIG *src,
@ -95,16 +100,15 @@ static int64_t try_restoration_frame(const YV12_BUFFER_CONFIG *src,
return filt_err;
}
static int search_bilateral_level(const YV12_BUFFER_CONFIG *src, AV1_COMP *cpi,
static double search_bilateral(const YV12_BUFFER_CONFIG *src, AV1_COMP *cpi,
int filter_level, int partial_frame,
int *bilateral_level, double *best_cost_ret,
double *best_tile_cost) {
RestorationInfo *info, double *best_tile_cost) {
BilateralInfo *bilateral_info = info->bilateral_info;
AV1_COMMON *const cm = &cpi->common;
int i, j, tile_idx;
int i, tile_idx, subtile_idx;
int64_t err;
int bits;
double cost, best_cost, cost_norestore, cost_bilateral,
cost_norestore_subtile;
double cost, best_cost, cost_bilateral, cost_norestore_subtile;
const int bilateral_level_bits = av1_bilateral_level_bits(&cpi->common);
const int bilateral_levels = 1 << bilateral_level_bits;
MACROBLOCK *x = &cpi->td.mb;
@ -120,29 +124,19 @@ static int search_bilateral_level(const YV12_BUFFER_CONFIG *src, AV1_COMP *cpi,
1, partial_frame);
aom_yv12_copy_y(cm->frame_to_show, &cpi->last_frame_db);
// RD cost associated with no restoration
rsi.frame_restoration_type = RESTORE_NONE;
err = try_restoration_frame(src, cpi, &rsi, partial_frame);
// err = sse_restoration_tile(src, cm, 0, cm->width, 0, cm->height);
bits = frame_level_restore_bits[rsi.frame_restoration_type]
<< AV1_PROB_COST_SHIFT;
cost_norestore = RDCOST_DBL(x->rdmult, x->rddiv, (bits >> 4), err);
// RD cost associated with bilateral filtering
rsi.frame_restoration_type = RESTORE_BILATERAL;
rsi.bilateral_level = (int *)aom_malloc(sizeof(*rsi.bilateral_level) *
ntiles * BILATERAL_SUBTILES);
assert(rsi.bilateral_level != NULL);
rsi.bilateral_info =
(BilateralInfo *)aom_malloc(sizeof(*rsi.bilateral_info) * ntiles);
assert(rsi.bilateral_info != NULL);
for (j = 0; j < ntiles * BILATERAL_SUBTILES; ++j) bilateral_level[j] = -1;
for (tile_idx = 0; tile_idx < ntiles; ++tile_idx)
for (subtile_idx = 0; subtile_idx < BILATERAL_SUBTILES; ++subtile_idx)
bilateral_info[tile_idx].level[subtile_idx] =
rsi.bilateral_info[tile_idx].level[subtile_idx] = -1;
// TODO(debargha): This is a pretty inefficient way to find the best
// parameters per tile. Needs fixing.
// Find best filter for each tile
for (tile_idx = 0; tile_idx < ntiles; ++tile_idx) {
int subtile_idx;
for (subtile_idx = 0; subtile_idx < BILATERAL_SUBTILES; ++subtile_idx) {
const int fulltile_idx = tile_idx * BILATERAL_SUBTILES + subtile_idx;
av1_get_rest_tile_limits(tile_idx, subtile_idx, BILATERAL_SUBTILE_BITS,
nhtiles, nvtiles, tile_width, tile_height,
cm->width, cm->height, 0, 0, &h_start, &h_end,
@ -158,34 +152,31 @@ static int search_bilateral_level(const YV12_BUFFER_CONFIG *src, AV1_COMP *cpi,
cost_norestore_subtile =
RDCOST_DBL(x->rdmult, x->rddiv, (bits >> 4), err);
best_cost = cost_norestore_subtile;
for (j = 0; j < ntiles * BILATERAL_SUBTILES; ++j)
rsi.bilateral_level[j] = -1;
for (i = 0; i < bilateral_levels; ++i) {
rsi.bilateral_level[fulltile_idx] = i;
rsi.bilateral_info[tile_idx].level[subtile_idx] = i;
err = try_restoration_tile(src, cpi, &rsi, partial_frame, tile_idx,
subtile_idx, BILATERAL_SUBTILE_BITS);
bits = bilateral_level_bits << AV1_PROB_COST_SHIFT;
bits += av1_cost_bit(RESTORE_NONE_BILATERAL_PROB, 1);
cost = RDCOST_DBL(x->rdmult, x->rddiv, (bits >> 4), err);
if (cost < best_cost) {
bilateral_level[fulltile_idx] = i;
bilateral_info[tile_idx].level[subtile_idx] = i;
best_cost = cost;
}
rsi.bilateral_info[tile_idx].level[subtile_idx] = -1;
}
}
if (best_tile_cost) {
bits = 0;
for (j = 0; j < ntiles * BILATERAL_SUBTILES; ++j)
rsi.bilateral_level[j] = -1;
for (subtile_idx = 0; subtile_idx < BILATERAL_SUBTILES; ++subtile_idx) {
const int fulltile_idx = tile_idx * BILATERAL_SUBTILES + subtile_idx;
rsi.bilateral_level[fulltile_idx] = bilateral_level[fulltile_idx];
if (rsi.bilateral_level[fulltile_idx] >= 0)
rsi.bilateral_info[tile_idx].level[subtile_idx] =
bilateral_info[tile_idx].level[subtile_idx];
if (rsi.bilateral_info[tile_idx].level[subtile_idx] >= 0)
bits += bilateral_level_bits << AV1_PROB_COST_SHIFT;
#if BILATERAL_SUBTILES
bits += av1_cost_bit(RESTORE_NONE_BILATERAL_PROB,
rsi.bilateral_level[fulltile_idx] >= 0);
bits +=
av1_cost_bit(RESTORE_NONE_BILATERAL_PROB,
rsi.bilateral_info[tile_idx].level[subtile_idx] >= 0);
#endif
}
err = try_restoration_tile(src, cpi, &rsi, partial_frame, tile_idx, 0, 0);
@ -193,146 +184,30 @@ static int search_bilateral_level(const YV12_BUFFER_CONFIG *src, AV1_COMP *cpi,
x->rdmult, x->rddiv,
(bits + cpi->switchable_restore_cost[RESTORE_BILATERAL]) >> 4, err);
}
}
// Find cost for combined configuration
bits = frame_level_restore_bits[rsi.frame_restoration_type]
<< AV1_PROB_COST_SHIFT;
for (j = 0; j < ntiles * BILATERAL_SUBTILES; ++j) {
rsi.bilateral_level[j] = bilateral_level[j];
if (rsi.bilateral_level[j] >= 0) {
for (tile_idx = 0; tile_idx < ntiles; ++tile_idx) {
for (subtile_idx = 0; subtile_idx < BILATERAL_SUBTILES; ++subtile_idx) {
rsi.bilateral_info[tile_idx].level[subtile_idx] =
bilateral_info[tile_idx].level[subtile_idx];
if (rsi.bilateral_info[tile_idx].level[subtile_idx] >= 0) {
bits += bilateral_level_bits << AV1_PROB_COST_SHIFT;
}
#if BILATERAL_SUBTILES
bits +=
av1_cost_bit(RESTORE_NONE_BILATERAL_PROB, rsi.bilateral_level[j] >= 0);
av1_cost_bit(RESTORE_NONE_BILATERAL_PROB,
rsi.bilateral_info[tile_idx].level[subtile_idx] >= 0);
#endif
}
}
err = try_restoration_frame(src, cpi, &rsi, partial_frame);
cost_bilateral = RDCOST_DBL(x->rdmult, x->rddiv, (bits >> 4), err);
aom_free(rsi.bilateral_level);
aom_free(rsi.bilateral_info);
aom_yv12_copy_y(&cpi->last_frame_uf, cm->frame_to_show);
if (cost_bilateral < cost_norestore) {
if (best_cost_ret) *best_cost_ret = cost_bilateral;
return 1;
} else {
if (best_cost_ret) *best_cost_ret = cost_norestore;
return 0;
}
}
static int search_filter_bilateral_level(const YV12_BUFFER_CONFIG *src,
AV1_COMP *cpi, int partial_frame,
int *filter_best, int *bilateral_level,
double *best_cost_ret,
double *best_tile_cost) {
const AV1_COMMON *const cm = &cpi->common;
const struct loopfilter *const lf = &cm->lf;
const int min_filter_level = 0;
const int max_filter_level = av1_get_max_filter_level(cpi);
int filt_direction = 0;
int filt_best;
double best_err;
int i, j;
int *tmp_level;
int bilateral_success[MAX_LOOP_FILTER + 1];
const int ntiles =
av1_get_rest_ntiles(cm->width, cm->height, NULL, NULL, NULL, NULL);
double *tile_cost = (double *)aom_malloc(sizeof(*tile_cost) * ntiles);
// Start the search at the previous frame filter level unless it is now out of
// range.
int filt_mid = clamp(lf->filter_level, min_filter_level, max_filter_level);
int filter_step = filt_mid < 16 ? 4 : filt_mid / 4;
double ss_err[MAX_LOOP_FILTER + 1];
// Set each entry to -1
for (i = 0; i <= MAX_LOOP_FILTER; ++i) ss_err[i] = -1.0;
tmp_level =
(int *)aom_malloc(sizeof(*tmp_level) * ntiles * BILATERAL_SUBTILES);
bilateral_success[filt_mid] = search_bilateral_level(
src, cpi, filt_mid, partial_frame, tmp_level, &best_err, best_tile_cost);
filt_best = filt_mid;
ss_err[filt_mid] = best_err;
for (j = 0; j < ntiles * BILATERAL_SUBTILES; ++j) {
bilateral_level[j] = tmp_level[j];
}
while (filter_step > 0) {
const int filt_high = AOMMIN(filt_mid + filter_step, max_filter_level);
const int filt_low = AOMMAX(filt_mid - filter_step, min_filter_level);
// Bias against raising loop filter in favor of lowering it.
double bias = (best_err / (1 << (15 - (filt_mid / 8)))) * filter_step;
if ((cpi->oxcf.pass == 2) && (cpi->twopass.section_intra_rating < 20))
bias = (bias * cpi->twopass.section_intra_rating) / 20;
// yx, bias less for large block size
if (cm->tx_mode != ONLY_4X4) bias /= 2;
if (filt_direction <= 0 && filt_low != filt_mid) {
// Get Low filter error score
if (ss_err[filt_low] < 0) {
bilateral_success[filt_low] =
search_bilateral_level(src, cpi, filt_low, partial_frame, tmp_level,
&ss_err[filt_low], tile_cost);
}
// If value is close to the best so far then bias towards a lower loop
// filter value.
if (ss_err[filt_low] < (best_err + bias)) {
// Was it actually better than the previous best?
if (ss_err[filt_low] < best_err) {
best_err = ss_err[filt_low];
}
filt_best = filt_low;
for (j = 0; j < ntiles * BILATERAL_SUBTILES; ++j) {
bilateral_level[j] = tmp_level[j];
}
memcpy(best_tile_cost, tile_cost, sizeof(*tile_cost) * ntiles);
}
}
// Now look at filt_high
if (filt_direction >= 0 && filt_high != filt_mid) {
if (ss_err[filt_high] < 0) {
bilateral_success[filt_high] =
search_bilateral_level(src, cpi, filt_high, partial_frame,
tmp_level, &ss_err[filt_high], tile_cost);
}
// If value is significantly better than previous best, bias added against
// raising filter value
if (ss_err[filt_high] < (best_err - bias)) {
best_err = ss_err[filt_high];
filt_best = filt_high;
for (j = 0; j < ntiles * BILATERAL_SUBTILES; ++j) {
bilateral_level[j] = tmp_level[j];
}
memcpy(best_tile_cost, tile_cost, sizeof(*tile_cost) * ntiles);
}
}
// Half the step distance if the best filter value was the same as last time
if (filt_best == filt_mid) {
filter_step /= 2;
filt_direction = 0;
} else {
filt_direction = (filt_best < filt_mid) ? -1 : 1;
filt_mid = filt_best;
}
}
aom_free(tmp_level);
aom_free(tile_cost);
// Update best error
best_err = ss_err[filt_best];
if (best_cost_ret) *best_cost_ret = best_err;
if (filter_best) *filter_best = filt_best;
return bilateral_success[filt_best];
return cost_bilateral;
}
static double find_average(uint8_t *src, int h_start, int h_end, int v_start,
@ -610,9 +485,7 @@ static double compute_score(double *M, double *H, int *vfilt, int *hfilt) {
b[RESTORATION_HALFWIN] -= 2 * b[i];
}
for (k = 0; k < w; ++k) {
for (l = 0; l < w; ++l) {
ab[k * w + l] = a[l] * b[k];
}
for (l = 0; l < w; ++l) ab[k * w + l] = a[l] * b[k];
}
for (k = 0; k < w * w; ++k) {
P += ab[k] * M[k];
@ -641,17 +514,15 @@ static void quantize_sym_filter(double *f, int *fi) {
fi[2] = CLIP(fi[2], WIENER_FILT_TAP2_MINV, WIENER_FILT_TAP2_MAXV);
}
static int search_wiener_filter(const YV12_BUFFER_CONFIG *src, AV1_COMP *cpi,
static double search_wiener(const YV12_BUFFER_CONFIG *src, AV1_COMP *cpi,
int filter_level, int partial_frame,
int (*vfilter)[RESTORATION_WIN],
int (*hfilter)[RESTORATION_WIN],
int *wiener_level, double *best_cost_ret,
double *best_tile_cost) {
RestorationInfo *info, double *best_tile_cost) {
WienerInfo *wiener_info = info->wiener_info;
AV1_COMMON *const cm = &cpi->common;
RestorationInfo rsi;
int64_t err;
int bits;
double cost_wiener, cost_norestore, cost_norestore_tile;
double cost_wiener, cost_norestore_tile;
MACROBLOCK *x = &cpi->td.mb;
double M[RESTORATION_WIN2];
double H[RESTORATION_WIN2 * RESTORATION_WIN2];
@ -679,25 +550,14 @@ static int search_wiener_filter(const YV12_BUFFER_CONFIG *src, AV1_COMP *cpi,
1, partial_frame);
aom_yv12_copy_y(cm->frame_to_show, &cpi->last_frame_db);
rsi.frame_restoration_type = RESTORE_NONE;
err = sse_restoration_tile(src, cm, 0, cm->width, 0, cm->height);
bits = frame_level_restore_bits[rsi.frame_restoration_type]
<< AV1_PROB_COST_SHIFT;
cost_norestore = RDCOST_DBL(x->rdmult, x->rddiv, (bits >> 4), err);
rsi.frame_restoration_type = RESTORE_WIENER;
rsi.vfilter =
(int(*)[RESTORATION_WIN])aom_malloc(sizeof(*rsi.vfilter) * ntiles);
assert(rsi.vfilter != NULL);
rsi.hfilter =
(int(*)[RESTORATION_WIN])aom_malloc(sizeof(*rsi.hfilter) * ntiles);
assert(rsi.hfilter != NULL);
rsi.wiener_level = (int *)aom_malloc(sizeof(*rsi.wiener_level) * ntiles);
assert(rsi.wiener_level != NULL);
rsi.wiener_info = (WienerInfo *)aom_malloc(sizeof(*rsi.wiener_info) * ntiles);
assert(rsi.wiener_info != NULL);
for (j = 0; j < ntiles; ++j) rsi.wiener_info[j].level = 0;
// Compute best Wiener filters for each tile
for (tile_idx = 0; tile_idx < ntiles; ++tile_idx) {
wiener_level[tile_idx] = 0;
av1_get_rest_tile_limits(tile_idx, 0, 0, nhtiles, nvtiles, tile_width,
tile_height, width, height, 0, 0, &h_start, &h_end,
&v_start, &v_end);
@ -706,7 +566,7 @@ static int search_wiener_filter(const YV12_BUFFER_CONFIG *src, AV1_COMP *cpi,
// #bits when a tile is not restored
bits = av1_cost_bit(RESTORE_NONE_WIENER_PROB, 0);
cost_norestore_tile = RDCOST_DBL(x->rdmult, x->rddiv, (bits >> 4), err);
if (best_tile_cost) best_tile_cost[tile_idx] = cost_norestore_tile;
best_tile_cost[tile_idx] = DBL_MAX;
av1_get_rest_tile_limits(tile_idx, 0, 0, nhtiles, nvtiles, tile_width,
tile_height, width, height, 1, 1, &h_start, &h_end,
@ -720,91 +580,78 @@ static int search_wiener_filter(const YV12_BUFFER_CONFIG *src, AV1_COMP *cpi,
compute_stats(dgd->y_buffer, src->y_buffer, h_start, h_end, v_start,
v_end, dgd_stride, src_stride, M, H);
wiener_info[tile_idx].level = 1;
if (!wiener_decompose_sep_sym(M, H, vfilterd, hfilterd)) {
for (i = 0; i < RESTORATION_HALFWIN; ++i)
rsi.vfilter[tile_idx][i] = rsi.hfilter[tile_idx][i] = 0;
wiener_level[tile_idx] = 0;
wiener_info[tile_idx].level = 0;
continue;
}
quantize_sym_filter(vfilterd, rsi.vfilter[tile_idx]);
quantize_sym_filter(hfilterd, rsi.hfilter[tile_idx]);
wiener_level[tile_idx] = 1;
quantize_sym_filter(vfilterd, rsi.wiener_info[tile_idx].vfilter);
quantize_sym_filter(hfilterd, rsi.wiener_info[tile_idx].hfilter);
// Filter score computes the value of the function x'*A*x - x'*b for the
// learned filter and compares it against identity filer. If there is no
// reduction in the function, the filter is reverted back to identity
score = compute_score(M, H, rsi.vfilter[tile_idx], rsi.hfilter[tile_idx]);
score = compute_score(M, H, rsi.wiener_info[tile_idx].vfilter,
rsi.wiener_info[tile_idx].hfilter);
if (score > 0.0) {
for (i = 0; i < RESTORATION_HALFWIN; ++i)
rsi.vfilter[tile_idx][i] = rsi.hfilter[tile_idx][i] = 0;
wiener_level[tile_idx] = 0;
wiener_info[tile_idx].level = 0;
continue;
}
for (j = 0; j < ntiles; ++j) rsi.wiener_level[j] = 0;
rsi.wiener_level[tile_idx] = 1;
rsi.wiener_info[tile_idx].level = 1;
err = try_restoration_tile(src, cpi, &rsi, partial_frame, tile_idx, 0, 0);
bits = WIENER_FILT_BITS << AV1_PROB_COST_SHIFT;
bits += av1_cost_bit(RESTORE_NONE_WIENER_PROB, 1);
cost_wiener = RDCOST_DBL(x->rdmult, x->rddiv, (bits >> 4), err);
if (cost_wiener >= cost_norestore_tile) wiener_level[tile_idx] = 0;
if (best_tile_cost) {
if (cost_wiener >= cost_norestore_tile) {
wiener_info[tile_idx].level = 0;
} else {
wiener_info[tile_idx].level = 1;
for (i = 0; i < RESTORATION_HALFWIN; ++i) {
wiener_info[tile_idx].vfilter[i] = rsi.wiener_info[tile_idx].vfilter[i];
wiener_info[tile_idx].hfilter[i] = rsi.wiener_info[tile_idx].hfilter[i];
}
bits = WIENER_FILT_BITS << AV1_PROB_COST_SHIFT;
best_tile_cost[tile_idx] = RDCOST_DBL(
x->rdmult, x->rddiv,
(bits + cpi->switchable_restore_cost[RESTORE_WIENER]) >> 4, err);
}
rsi.wiener_info[tile_idx].level = 0;
}
// Cost for Wiener filtering
bits = frame_level_restore_bits[rsi.frame_restoration_type]
<< AV1_PROB_COST_SHIFT;
for (tile_idx = 0; tile_idx < ntiles; ++tile_idx) {
bits += av1_cost_bit(RESTORE_NONE_WIENER_PROB, wiener_level[tile_idx]);
if (wiener_level[tile_idx])
bits += av1_cost_bit(RESTORE_NONE_WIENER_PROB, wiener_info[tile_idx].level);
rsi.wiener_info[tile_idx].level = wiener_info[tile_idx].level;
if (wiener_info[tile_idx].level) {
bits += (WIENER_FILT_BITS << AV1_PROB_COST_SHIFT);
rsi.wiener_level[tile_idx] = wiener_level[tile_idx];
for (i = 0; i < RESTORATION_HALFWIN; ++i) {
rsi.wiener_info[tile_idx].vfilter[i] = wiener_info[tile_idx].vfilter[i];
rsi.wiener_info[tile_idx].hfilter[i] = wiener_info[tile_idx].hfilter[i];
}
}
}
// TODO(debargha): This is a pretty inefficient way to find the error
// for the whole frame. Specialize for a specific tile.
err = try_restoration_frame(src, cpi, &rsi, partial_frame);
cost_wiener = RDCOST_DBL(x->rdmult, x->rddiv, (bits >> 4), err);
for (tile_idx = 0; tile_idx < ntiles; ++tile_idx) {
if (wiener_level[tile_idx] == 0) continue;
for (i = 0; i < RESTORATION_HALFWIN; ++i) {
vfilter[tile_idx][i] = rsi.vfilter[tile_idx][i];
hfilter[tile_idx][i] = rsi.hfilter[tile_idx][i];
}
}
aom_free(rsi.vfilter);
aom_free(rsi.hfilter);
aom_free(rsi.wiener_level);
aom_free(rsi.wiener_info);
aom_yv12_copy_y(&cpi->last_frame_uf, cm->frame_to_show);
if (cost_wiener < cost_norestore) {
if (best_cost_ret) *best_cost_ret = cost_wiener;
return 1;
} else {
if (best_cost_ret) *best_cost_ret = cost_norestore;
return 0;
}
return cost_wiener;
}
static int search_switchable_restoration(
const YV12_BUFFER_CONFIG *src, AV1_COMP *cpi, int filter_level,
int partial_frame, RestorationInfo *rsi, double *tile_cost_bilateral,
double *tile_cost_wiener, double *best_cost_ret) {
AV1_COMMON *const cm = &cpi->common;
const int bilateral_level_bits = av1_bilateral_level_bits(&cpi->common);
static double search_norestore(const YV12_BUFFER_CONFIG *src, AV1_COMP *cpi,
int filter_level, int partial_frame,
RestorationInfo *info, double *best_tile_cost) {
double err, cost_norestore;
int bits;
MACROBLOCK *x = &cpi->td.mb;
double err, cost_norestore, cost_norestore_tile, cost_switchable;
int bits, tile_idx;
int tile_width, tile_height, nhtiles, nvtiles;
AV1_COMMON *const cm = &cpi->common;
int tile_idx, tile_width, tile_height, nhtiles, nvtiles;
int h_start, h_end, v_start, v_end;
const int ntiles = av1_get_rest_ntiles(cm->width, cm->height, &tile_width,
&tile_height, &nhtiles, &nvtiles);
(void)info;
// Make a copy of the unfiltered / processed recon buffer
aom_yv12_copy_y(cm->frame_to_show, &cpi->last_frame_uf);
@ -812,99 +659,86 @@ static int search_switchable_restoration(
1, partial_frame);
aom_yv12_copy_y(cm->frame_to_show, &cpi->last_frame_db);
// RD cost associated with no restoration
rsi->frame_restoration_type = RESTORE_NONE;
err = sse_restoration_tile(src, cm, 0, cm->width, 0, cm->height);
bits = frame_level_restore_bits[rsi->frame_restoration_type]
<< AV1_PROB_COST_SHIFT;
cost_norestore = RDCOST_DBL(x->rdmult, x->rddiv, (bits >> 4), err);
rsi->frame_restoration_type = RESTORE_SWITCHABLE;
bits = frame_level_restore_bits[rsi->frame_restoration_type]
<< AV1_PROB_COST_SHIFT;
for (tile_idx = 0; tile_idx < ntiles; ++tile_idx) {
av1_get_rest_tile_limits(tile_idx, 0, 0, nhtiles, nvtiles, tile_width,
tile_height, cm->width, cm->height, 0, 0, &h_start,
&h_end, &v_start, &v_end);
err = sse_restoration_tile(src, cm, h_start, h_end - h_start, v_start,
v_end - v_start);
cost_norestore_tile =
best_tile_cost[tile_idx] =
RDCOST_DBL(x->rdmult, x->rddiv,
(cpi->switchable_restore_cost[RESTORE_NONE] >> 4), err);
if (tile_cost_wiener[tile_idx] > cost_norestore_tile &&
tile_cost_bilateral[tile_idx] > cost_norestore_tile) {
rsi->restoration_type[tile_idx] = RESTORE_NONE;
} else {
rsi->restoration_type[tile_idx] =
tile_cost_wiener[tile_idx] < tile_cost_bilateral[tile_idx]
? RESTORE_WIENER
: RESTORE_BILATERAL;
if (rsi->restoration_type[tile_idx] == RESTORE_WIENER) {
if (rsi->wiener_level[tile_idx]) {
bits += (WIENER_FILT_BITS << AV1_PROB_COST_SHIFT);
} else {
rsi->restoration_type[tile_idx] = RESTORE_NONE;
}
} else {
int s;
for (s = 0; s < BILATERAL_SUBTILES; ++s) {
#if BILATERAL_SUBTILES
bits += av1_cost_bit(
RESTORE_NONE_BILATERAL_PROB,
rsi->bilateral_level[tile_idx * BILATERAL_SUBTILES + s] >= 0);
#endif
if (rsi->bilateral_level[tile_idx * BILATERAL_SUBTILES + s] >= 0)
bits += bilateral_level_bits << AV1_PROB_COST_SHIFT;
}
}
}
bits += cpi->switchable_restore_cost[rsi->restoration_type[tile_idx]];
}
err = try_restoration_frame(src, cpi, rsi, partial_frame);
cost_switchable = RDCOST_DBL(x->rdmult, x->rddiv, (bits >> 4), err);
// RD cost associated with no restoration
err = sse_restoration_tile(src, cm, 0, cm->width, 0, cm->height);
bits = frame_level_restore_bits[RESTORE_NONE] << AV1_PROB_COST_SHIFT;
cost_norestore = RDCOST_DBL(x->rdmult, x->rddiv, (bits >> 4), err);
aom_yv12_copy_y(&cpi->last_frame_uf, cm->frame_to_show);
if (cost_switchable < cost_norestore) {
*best_cost_ret = cost_switchable;
return 1;
} else {
*best_cost_ret = cost_norestore;
return 0;
return cost_norestore;
}
static double search_switchable_restoration(
AV1_COMP *cpi, int filter_level, int partial_frame, RestorationInfo *rsi,
double *tile_cost[RESTORE_SWITCHABLE_TYPES]) {
AV1_COMMON *const cm = &cpi->common;
MACROBLOCK *x = &cpi->td.mb;
double cost_switchable = 0;
int r, bits, tile_idx;
const int ntiles =
av1_get_rest_ntiles(cm->width, cm->height, NULL, NULL, NULL, NULL);
// Make a copy of the unfiltered / processed recon buffer
aom_yv12_copy_y(cm->frame_to_show, &cpi->last_frame_uf);
av1_loop_filter_frame(cm->frame_to_show, cm, &cpi->td.mb.e_mbd, filter_level,
1, partial_frame);
aom_yv12_copy_y(cm->frame_to_show, &cpi->last_frame_db);
rsi->frame_restoration_type = RESTORE_SWITCHABLE;
bits = frame_level_restore_bits[rsi->frame_restoration_type]
<< AV1_PROB_COST_SHIFT;
cost_switchable = RDCOST_DBL(x->rdmult, x->rddiv, bits >> 4, 0);
for (tile_idx = 0; tile_idx < ntiles; ++tile_idx) {
double best_cost = tile_cost[RESTORE_NONE][tile_idx];
rsi->restoration_type[tile_idx] = RESTORE_NONE;
for (r = 1; r < RESTORE_SWITCHABLE_TYPES; r++) {
if (tile_cost[r][tile_idx] < best_cost) {
rsi->restoration_type[tile_idx] = r;
best_cost = tile_cost[r][tile_idx];
}
}
cost_switchable += best_cost;
}
aom_yv12_copy_y(&cpi->last_frame_uf, cm->frame_to_show);
return cost_switchable;
}
void av1_pick_filter_restoration(const YV12_BUFFER_CONFIG *src, AV1_COMP *cpi,
LPF_PICK_METHOD method) {
static search_restore_type search_restore_fun[RESTORE_SWITCHABLE_TYPES] = {
search_norestore, search_bilateral, search_wiener,
};
AV1_COMMON *const cm = &cpi->common;
struct loopfilter *const lf = &cm->lf;
int wiener_success = 0;
int bilateral_success = 0;
int switchable_success = 0;
double cost_bilateral = DBL_MAX;
double cost_wiener = DBL_MAX;
// double cost_norestore = DBL_MAX;
double cost_switchable = DBL_MAX;
double *tile_cost_bilateral, *tile_cost_wiener;
double cost_restore[RESTORE_TYPES];
double *tile_cost[RESTORE_SWITCHABLE_TYPES];
double best_cost_restore;
RestorationType r, best_restore;
const int ntiles =
av1_get_rest_ntiles(cm->width, cm->height, NULL, NULL, NULL, NULL);
cm->rst_info.restoration_type = (RestorationType *)aom_realloc(
cm->rst_info.restoration_type,
sizeof(*cm->rst_info.restoration_type) * ntiles);
cm->rst_info.bilateral_level = (int *)aom_realloc(
cm->rst_info.bilateral_level,
sizeof(*cm->rst_info.bilateral_level) * ntiles * BILATERAL_SUBTILES);
assert(cm->rst_info.bilateral_level != NULL);
cm->rst_info.bilateral_info = (BilateralInfo *)aom_realloc(
cm->rst_info.bilateral_info,
sizeof(*cm->rst_info.bilateral_info) * ntiles);
assert(cm->rst_info.bilateral_info != NULL);
cm->rst_info.wiener_info = (WienerInfo *)aom_realloc(
cm->rst_info.wiener_info, sizeof(*cm->rst_info.wiener_info) * ntiles);
assert(cm->rst_info.wiener_info != NULL);
cm->rst_info.wiener_level = (int *)aom_realloc(
cm->rst_info.wiener_level, sizeof(*cm->rst_info.wiener_level) * ntiles);
assert(cm->rst_info.wiener_level != NULL);
cm->rst_info.vfilter = (int(*)[RESTORATION_WIN])aom_realloc(
cm->rst_info.vfilter, sizeof(*cm->rst_info.vfilter) * ntiles);
assert(cm->rst_info.vfilter != NULL);
cm->rst_info.hfilter = (int(*)[RESTORATION_WIN])aom_realloc(
cm->rst_info.hfilter, sizeof(*cm->rst_info.hfilter) * ntiles);
assert(cm->rst_info.hfilter != NULL);
tile_cost_wiener = (double *)aom_malloc(sizeof(cost_wiener) * ntiles);
tile_cost_bilateral = (double *)aom_malloc(sizeof(cost_bilateral) * ntiles);
for (r = 0; r < RESTORE_SWITCHABLE_TYPES; r++)
tile_cost[r] = (double *)aom_malloc(sizeof(*tile_cost[0]) * ntiles);
lf->sharpness_level = cm->frame_type == KEY_FRAME ? 0 : cpi->oxcf.sharpness;
@ -940,52 +774,34 @@ void av1_pick_filter_restoration(const YV12_BUFFER_CONFIG *src, AV1_COMP *cpi,
#endif // CONFIG_AOM_HIGHBITDEPTH
if (cm->frame_type == KEY_FRAME) filt_guess -= 4;
lf->filter_level = clamp(filt_guess, min_filter_level, max_filter_level);
bilateral_success = search_bilateral_level(
src, cpi, lf->filter_level, method == LPF_PICK_FROM_SUBIMAGE,
cm->rst_info.bilateral_level, &cost_bilateral, tile_cost_bilateral);
wiener_success = search_wiener_filter(
src, cpi, lf->filter_level, method == LPF_PICK_FROM_SUBIMAGE,
cm->rst_info.vfilter, cm->rst_info.hfilter, cm->rst_info.wiener_level,
&cost_wiener, tile_cost_wiener);
switchable_success = search_switchable_restoration(
src, cpi, lf->filter_level, method == LPF_PICK_FROM_SUBIMAGE,
&cm->rst_info, tile_cost_bilateral, tile_cost_wiener, &cost_switchable);
} else {
// lf->filter_level = av1_search_filter_level(
// src, cpi, method == LPF_PICK_FROM_SUBIMAGE, &cost_norestore);
// bilateral_success = search_bilateral_level(
// src, cpi, lf->filter_level, method == LPF_PICK_FROM_SUBIMAGE,
// cm->rst_info.bilateral_level, &cost_bilateral, tile_cost_bilateral);
bilateral_success = search_filter_bilateral_level(
src, cpi, method == LPF_PICK_FROM_SUBIMAGE, &lf->filter_level,
cm->rst_info.bilateral_level, &cost_bilateral, tile_cost_bilateral);
wiener_success = search_wiener_filter(
src, cpi, lf->filter_level, method == LPF_PICK_FROM_SUBIMAGE,
cm->rst_info.vfilter, cm->rst_info.hfilter, cm->rst_info.wiener_level,
&cost_wiener, tile_cost_wiener);
switchable_success = search_switchable_restoration(
src, cpi, lf->filter_level, method == LPF_PICK_FROM_SUBIMAGE,
&cm->rst_info, tile_cost_bilateral, tile_cost_wiener, &cost_switchable);
lf->filter_level =
av1_search_filter_level(src, cpi, method == LPF_PICK_FROM_SUBIMAGE,
&cost_restore[RESTORE_NONE]);
}
if (cost_bilateral < AOMMIN(cost_wiener, cost_switchable)) {
if (bilateral_success)
cm->rst_info.frame_restoration_type = RESTORE_BILATERAL;
else
cm->rst_info.frame_restoration_type = RESTORE_NONE;
} else if (cost_wiener < AOMMIN(cost_bilateral, cost_switchable)) {
if (wiener_success)
cm->rst_info.frame_restoration_type = RESTORE_WIENER;
else
cm->rst_info.frame_restoration_type = RESTORE_NONE;
} else {
if (switchable_success)
cm->rst_info.frame_restoration_type = RESTORE_SWITCHABLE;
else
cm->rst_info.frame_restoration_type = RESTORE_NONE;
for (r = 0; r < RESTORE_SWITCHABLE_TYPES; ++r) {
cost_restore[r] = search_restore_fun[r](src, cpi, lf->filter_level,
method == LPF_PICK_FROM_SUBIMAGE,
&cm->rst_info, tile_cost[r]);
}
printf("Frame %d frame_restore_type %d [%d]: %f %f %f\n",
cm->current_video_frame, cm->rst_info.frame_restoration_type, ntiles,
cost_bilateral, cost_wiener, cost_switchable);
aom_free(tile_cost_bilateral);
aom_free(tile_cost_wiener);
cost_restore[RESTORE_SWITCHABLE] = search_switchable_restoration(
cpi, lf->filter_level, method == LPF_PICK_FROM_SUBIMAGE, &cm->rst_info,
tile_cost);
best_cost_restore = DBL_MAX;
best_restore = 0;
for (r = 0; r < RESTORE_TYPES; ++r) {
if (cost_restore[r] < best_cost_restore) {
best_restore = r;
best_cost_restore = cost_restore[r];
}
}
cm->rst_info.frame_restoration_type = best_restore;
/*
printf("Frame %d/%d frame_restore_type %d : %f %f %f %f\n",
cm->current_video_frame, cm->show_frame,
cm->rst_info.frame_restoration_type,
cost_restore[0], cost_restore[1], cost_restore[2], cost_restore[3]);
*/
for (r = 0; r < RESTORE_SWITCHABLE_TYPES; r++) aom_free(tile_cost[r]);
}