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/*
* Copyright (c) 2016, 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 <assert.h>
#include <math.h>
#include <string.h>
#include "./aom_scale_rtcd.h"
#include "aom/aom_integer.h"
#include "av1/common/cdef.h"
#include "av1/common/od_dering.h"
#include "av1/common/onyxc_int.h"
#include "av1/common/reconinter.h"
int sb_all_skip(const AV1_COMMON *const cm, int mi_row, int mi_col) {
int r, c;
int maxc, maxr;
int skip = 1;
maxc = cm->mi_cols - mi_col;
maxr = cm->mi_rows - mi_row;
#if CONFIG_EXT_PARTITION
if (maxr > cm->mib_size_log2) maxr = cm->mib_size_log2;
if (maxc > cm->mib_size_log2) maxc = cm->mib_size_log2;
#else
if (maxr > MAX_MIB_SIZE) maxr = MAX_MIB_SIZE;
if (maxc > MAX_MIB_SIZE) maxc = MAX_MIB_SIZE;
#endif
for (r = 0; r < maxr; r++) {
for (c = 0; c < maxc; c++) {
skip = skip &&
cm->mi_grid_visible[(mi_row + r) * cm->mi_stride + mi_col + c]
->mbmi.skip;
}
}
return skip;
}
static int is_8x8_block_skip(MODE_INFO **grid, int mi_row, int mi_col,
int mi_stride) {
int is_skip = 1;
for (int r = 0; r < mi_size_high[BLOCK_8X8]; ++r)
for (int c = 0; c < mi_size_wide[BLOCK_8X8]; ++c)
is_skip &= grid[(mi_row + r) * mi_stride + (mi_col + c)]->mbmi.skip;
return is_skip;
}
int sb_compute_dering_list(const AV1_COMMON *const cm, int mi_row, int mi_col,
dering_list *dlist, int filter_skip) {
int r, c;
int maxc, maxr;
MODE_INFO **grid;
int count = 0;
grid = cm->mi_grid_visible;
maxc = cm->mi_cols - mi_col;
maxr = cm->mi_rows - mi_row;
#if CONFIG_EXT_PARTITION
if (maxr > cm->mib_size_log2) maxr = cm->mib_size_log2;
if (maxc > cm->mib_size_log2) maxc = cm->mib_size_log2;
#else
if (maxr > MAX_MIB_SIZE) maxr = MAX_MIB_SIZE;
if (maxc > MAX_MIB_SIZE) maxc = MAX_MIB_SIZE;
#endif
const int r_step = mi_size_high[BLOCK_8X8];
const int c_step = mi_size_wide[BLOCK_8X8];
const int r_shift = (r_step == 2);
const int c_shift = (c_step == 2);
assert(r_step == 1 || r_step == 2);
assert(c_step == 1 || c_step == 2);
if (filter_skip) {
for (r = 0; r < maxr; r += r_step) {
for (c = 0; c < maxc; c += c_step) {
dlist[count].by = r >> r_shift;
dlist[count].bx = c >> c_shift;
dlist[count].skip =
is_8x8_block_skip(grid, mi_row + r, mi_col + c, cm->mi_stride);
count++;
}
}
} else {
for (r = 0; r < maxr; r += r_step) {
for (c = 0; c < maxc; c += c_step) {
if (!is_8x8_block_skip(grid, mi_row + r, mi_col + c, cm->mi_stride)) {
dlist[count].by = r >> r_shift;
dlist[count].bx = c >> c_shift;
dlist[count].skip = 0;
count++;
}
}
}
}
return count;
}
void copy_rect8_8bit_to_16bit_c(uint16_t *dst, int dstride, const uint8_t *src,
int sstride, int v, int h) {
int i, j;
for (i = 0; i < v; i++) {
for (j = 0; j < h; j++) {
dst[i * dstride + j] = src[i * sstride + j];
}
}
}
void copy_rect8_16bit_to_16bit_c(uint16_t *dst, int dstride,
const uint16_t *src, int sstride, int v,
int h) {
int i, j;
for (i = 0; i < v; i++) {
for (j = 0; j < h; j++) {
dst[i * dstride + j] = src[i * sstride + j];
}
}
}
void copy_sb8_16(UNUSED AV1_COMMON *cm, uint16_t *dst, int dstride,
const uint8_t *src, int src_voffset, int src_hoffset,
int sstride, int vsize, int hsize) {
#if CONFIG_HIGHBITDEPTH
if (cm->use_highbitdepth) {
const uint16_t *base =
&CONVERT_TO_SHORTPTR(src)[src_voffset * sstride + src_hoffset];
copy_rect8_16bit_to_16bit(dst, dstride, base, sstride, vsize, hsize);
} else {
#endif
const uint8_t *base = &src[src_voffset * sstride + src_hoffset];
copy_rect8_8bit_to_16bit(dst, dstride, base, sstride, vsize, hsize);
#if CONFIG_HIGHBITDEPTH
}
#endif
}
static INLINE void fill_rect(uint16_t *dst, int dstride, int v, int h,
uint16_t x) {
int i, j;
for (i = 0; i < v; i++) {
for (j = 0; j < h; j++) {
dst[i * dstride + j] = x;
}
}
}
static INLINE void copy_rect(uint16_t *dst, int dstride, const uint16_t *src,
int sstride, int v, int h) {
int i, j;
for (i = 0; i < v; i++) {
for (j = 0; j < h; j++) {
dst[i * dstride + j] = src[i * sstride + j];
}
}
}
void av1_cdef_frame(YV12_BUFFER_CONFIG *frame, AV1_COMMON *cm,
MACROBLOCKD *xd) {
int sbr, sbc;
int nhsb, nvsb;
uint16_t src[OD_DERING_INBUF_SIZE];
uint16_t *linebuf[3];
uint16_t *colbuf[3];
dering_list dlist[MAX_MIB_SIZE * MAX_MIB_SIZE];
unsigned char *row_dering, *prev_row_dering, *curr_row_dering;
int dering_count;
int dir[OD_DERING_NBLOCKS][OD_DERING_NBLOCKS] = { { 0 } };
int var[OD_DERING_NBLOCKS][OD_DERING_NBLOCKS] = { { 0 } };
int stride;
int mi_wide_l2[3];
int mi_high_l2[3];
int xdec[3];
int ydec[3];
int pli;
int dering_left;
int coeff_shift = AOMMAX(cm->bit_depth - 8, 0);
int nplanes = 3;
int chroma_dering =
xd->plane[1].subsampling_x == xd->plane[1].subsampling_y &&
xd->plane[2].subsampling_x == xd->plane[2].subsampling_y;
nvsb = (cm->mi_rows + MAX_MIB_SIZE - 1) / MAX_MIB_SIZE;
nhsb = (cm->mi_cols + MAX_MIB_SIZE - 1) / MAX_MIB_SIZE;
av1_setup_dst_planes(xd->plane, cm->sb_size, frame, 0, 0);
row_dering = aom_malloc(sizeof(*row_dering) * (nhsb + 2) * 2);
memset(row_dering, 1, sizeof(*row_dering) * (nhsb + 2) * 2);
prev_row_dering = row_dering + 1;
curr_row_dering = prev_row_dering + nhsb + 2;
for (pli = 0; pli < nplanes; pli++) {
xdec[pli] = xd->plane[pli].subsampling_x;
ydec[pli] = xd->plane[pli].subsampling_y;
mi_wide_l2[pli] = MI_SIZE_LOG2 - xd->plane[pli].subsampling_x;
mi_high_l2[pli] = MI_SIZE_LOG2 - xd->plane[pli].subsampling_y;
}
stride = (cm->mi_cols << MI_SIZE_LOG2) + 2 * OD_FILT_HBORDER;
for (pli = 0; pli < nplanes; pli++) {
linebuf[pli] = aom_malloc(sizeof(*linebuf) * OD_FILT_VBORDER * stride);
colbuf[pli] =
aom_malloc(sizeof(*colbuf) *
((MAX_SB_SIZE << mi_high_l2[pli]) + 2 * OD_FILT_VBORDER) *
OD_FILT_HBORDER);
}
for (sbr = 0; sbr < nvsb; sbr++) {
for (pli = 0; pli < nplanes; pli++) {
const int block_height =
(MAX_MIB_SIZE << mi_high_l2[pli]) + 2 * OD_FILT_VBORDER;
fill_rect(colbuf[pli], OD_FILT_HBORDER, block_height, OD_FILT_HBORDER,
OD_DERING_VERY_LARGE);
}
dering_left = 1;
for (sbc = 0; sbc < nhsb; sbc++) {
int level, clpf_strength;
int uv_level, uv_clpf_strength;
int nhb, nvb;
int cstart = 0;
curr_row_dering[sbc] = 0;
if (cm->mi_grid_visible[MAX_MIB_SIZE * sbr * cm->mi_stride +
MAX_MIB_SIZE * sbc] == NULL ||
cm->mi_grid_visible[MAX_MIB_SIZE * sbr * cm->mi_stride +
MAX_MIB_SIZE * sbc]
->mbmi.cdef_strength == -1) {
dering_left = 0;
continue;
}
if (!dering_left) cstart = -OD_FILT_HBORDER;
nhb = AOMMIN(MAX_MIB_SIZE, cm->mi_cols - MAX_MIB_SIZE * sbc);
nvb = AOMMIN(MAX_MIB_SIZE, cm->mi_rows - MAX_MIB_SIZE * sbr);
int tile_top, tile_left, tile_bottom, tile_right;
int mi_idx = MAX_MIB_SIZE * sbr * cm->mi_stride + MAX_MIB_SIZE * sbc;
BOUNDARY_TYPE boundary_tl =
cm->mi_grid_visible[MAX_MIB_SIZE * sbr * cm->mi_stride +
MAX_MIB_SIZE * sbc]
->mbmi.boundary_info;
tile_top = boundary_tl & TILE_ABOVE_BOUNDARY;
tile_left = boundary_tl & TILE_LEFT_BOUNDARY;
/* Right and bottom information appear unreliable, so we use the top
and left flags for the next superblocks. */
if (sbr != nvsb - 1 &&
cm->mi_grid_visible[mi_idx + MAX_MIB_SIZE * cm->mi_stride])
tile_bottom = cm->mi_grid_visible[mi_idx + MAX_MIB_SIZE * cm->mi_stride]
->mbmi.boundary_info &
TILE_ABOVE_BOUNDARY;
else
tile_bottom = 1;
if (sbc != nhsb - 1 && cm->mi_grid_visible[mi_idx + MAX_MIB_SIZE])
tile_right =
cm->mi_grid_visible[mi_idx + MAX_MIB_SIZE]->mbmi.boundary_info &
TILE_LEFT_BOUNDARY;
else
tile_right = 1;
const int mbmi_cdef_strength =
cm->mi_grid_visible[MAX_MIB_SIZE * sbr * cm->mi_stride +
MAX_MIB_SIZE * sbc]
->mbmi.cdef_strength;
level = cm->cdef_strengths[mbmi_cdef_strength] / CLPF_STRENGTHS;
clpf_strength = cm->cdef_strengths[mbmi_cdef_strength] % CLPF_STRENGTHS;
clpf_strength += clpf_strength == 3;
uv_level = cm->cdef_uv_strengths[mbmi_cdef_strength] / CLPF_STRENGTHS;
uv_clpf_strength =
cm->cdef_uv_strengths[mbmi_cdef_strength] % CLPF_STRENGTHS;
uv_clpf_strength += uv_clpf_strength == 3;
if ((level == 0 && clpf_strength == 0 && uv_level == 0 &&
uv_clpf_strength == 0) ||
(dering_count = sb_compute_dering_list(
cm, sbr * MAX_MIB_SIZE, sbc * MAX_MIB_SIZE, dlist,
get_filter_skip(level) || get_filter_skip(uv_level))) == 0) {
dering_left = 0;
continue;
}
curr_row_dering[sbc] = 1;
for (pli = 0; pli < nplanes; pli++) {
uint16_t dst[MAX_SB_SIZE * MAX_SB_SIZE];
int coffset;
int rend, cend;
int clpf_damping = cm->cdef_clpf_damping;
int dering_damping = cm->cdef_dering_damping;
int hsize = nhb << mi_wide_l2[pli];
int vsize = nvb << mi_high_l2[pli];
if (pli) {
if (chroma_dering)
level = uv_level;
else
level = 0;
clpf_strength = uv_clpf_strength;
}
if (sbc == nhsb - 1)
cend = hsize;
else
cend = hsize + OD_FILT_HBORDER;
if (sbr == nvsb - 1)
rend = vsize;
else
rend = vsize + OD_FILT_VBORDER;
coffset = sbc * MAX_MIB_SIZE << mi_wide_l2[pli];
if (sbc == nhsb - 1) {
/* On the last superblock column, fill in the right border with
OD_DERING_VERY_LARGE to avoid filtering with the outside. */
fill_rect(&src[cend + OD_FILT_HBORDER], OD_FILT_BSTRIDE,
rend + OD_FILT_VBORDER, hsize + OD_FILT_HBORDER - cend,
OD_DERING_VERY_LARGE);
}
if (sbr == nvsb - 1) {
/* On the last superblock row, fill in the bottom border with
OD_DERING_VERY_LARGE to avoid filtering with the outside. */
fill_rect(&src[(rend + OD_FILT_VBORDER) * OD_FILT_BSTRIDE],
OD_FILT_BSTRIDE, OD_FILT_VBORDER,
hsize + 2 * OD_FILT_HBORDER, OD_DERING_VERY_LARGE);
}
/* Copy in the pixels we need from the current superblock for
deringing.*/
copy_sb8_16(
cm,
&src[OD_FILT_VBORDER * OD_FILT_BSTRIDE + OD_FILT_HBORDER + cstart],
OD_FILT_BSTRIDE, xd->plane[pli].dst.buf,
(MAX_MIB_SIZE << mi_high_l2[pli]) * sbr, coffset + cstart,
xd->plane[pli].dst.stride, rend, cend - cstart);
if (!prev_row_dering[sbc]) {
copy_sb8_16(cm, &src[OD_FILT_HBORDER], OD_FILT_BSTRIDE,
xd->plane[pli].dst.buf,
(MAX_MIB_SIZE << mi_high_l2[pli]) * sbr - OD_FILT_VBORDER,
coffset, xd->plane[pli].dst.stride, OD_FILT_VBORDER,
hsize);
} else if (sbr > 0) {
copy_rect(&src[OD_FILT_HBORDER], OD_FILT_BSTRIDE,
&linebuf[pli][coffset], stride, OD_FILT_VBORDER, hsize);
} else {
fill_rect(&src[OD_FILT_HBORDER], OD_FILT_BSTRIDE, OD_FILT_VBORDER,
hsize, OD_DERING_VERY_LARGE);
}
if (!prev_row_dering[sbc - 1]) {
copy_sb8_16(cm, src, OD_FILT_BSTRIDE, xd->plane[pli].dst.buf,
(MAX_MIB_SIZE << mi_high_l2[pli]) * sbr - OD_FILT_VBORDER,
coffset - OD_FILT_HBORDER, xd->plane[pli].dst.stride,
OD_FILT_VBORDER, OD_FILT_HBORDER);
} else if (sbr > 0 && sbc > 0) {
copy_rect(src, OD_FILT_BSTRIDE,
&linebuf[pli][coffset - OD_FILT_HBORDER], stride,
OD_FILT_VBORDER, OD_FILT_HBORDER);
} else {
fill_rect(src, OD_FILT_BSTRIDE, OD_FILT_VBORDER, OD_FILT_HBORDER,
OD_DERING_VERY_LARGE);
}
if (!prev_row_dering[sbc + 1]) {
copy_sb8_16(cm, &src[OD_FILT_HBORDER + (nhb << mi_wide_l2[pli])],
OD_FILT_BSTRIDE, xd->plane[pli].dst.buf,
(MAX_MIB_SIZE << mi_high_l2[pli]) * sbr - OD_FILT_VBORDER,
coffset + hsize, xd->plane[pli].dst.stride,
OD_FILT_VBORDER, OD_FILT_HBORDER);
} else if (sbr > 0 && sbc < nhsb - 1) {
copy_rect(&src[hsize + OD_FILT_HBORDER], OD_FILT_BSTRIDE,
&linebuf[pli][coffset + hsize], stride, OD_FILT_VBORDER,
OD_FILT_HBORDER);
} else {
fill_rect(&src[hsize + OD_FILT_HBORDER], OD_FILT_BSTRIDE,
OD_FILT_VBORDER, OD_FILT_HBORDER, OD_DERING_VERY_LARGE);
}
if (dering_left) {
/* If we deringed the superblock on the left then we need to copy in
saved pixels. */
copy_rect(src, OD_FILT_BSTRIDE, colbuf[pli], OD_FILT_HBORDER,
rend + OD_FILT_VBORDER, OD_FILT_HBORDER);
}
/* Saving pixels in case we need to dering the superblock on the
right. */
copy_rect(colbuf[pli], OD_FILT_HBORDER, src + hsize, OD_FILT_BSTRIDE,
rend + OD_FILT_VBORDER, OD_FILT_HBORDER);
copy_sb8_16(
cm, &linebuf[pli][coffset], stride, xd->plane[pli].dst.buf,
(MAX_MIB_SIZE << mi_high_l2[pli]) * (sbr + 1) - OD_FILT_VBORDER,
coffset, xd->plane[pli].dst.stride, OD_FILT_VBORDER, hsize);
if (tile_top) {
fill_rect(src, OD_FILT_BSTRIDE, OD_FILT_VBORDER,
hsize + 2 * OD_FILT_HBORDER, OD_DERING_VERY_LARGE);
}
if (tile_left) {
fill_rect(src, OD_FILT_BSTRIDE, vsize + 2 * OD_FILT_VBORDER,
OD_FILT_HBORDER, OD_DERING_VERY_LARGE);
}
if (tile_bottom) {
fill_rect(&src[(vsize + OD_FILT_VBORDER) * OD_FILT_BSTRIDE],
OD_FILT_BSTRIDE, OD_FILT_VBORDER,
hsize + 2 * OD_FILT_HBORDER, OD_DERING_VERY_LARGE);
}
if (tile_right) {
fill_rect(&src[hsize + OD_FILT_HBORDER], OD_FILT_BSTRIDE,
vsize + 2 * OD_FILT_VBORDER, OD_FILT_HBORDER,
OD_DERING_VERY_LARGE);
}
#if CONFIG_HIGHBITDEPTH
if (cm->use_highbitdepth) {
od_dering(
(uint8_t *)&CONVERT_TO_SHORTPTR(
xd->plane[pli]
.dst.buf)[xd->plane[pli].dst.stride *
(MAX_MIB_SIZE * sbr << mi_high_l2[pli]) +
(sbc * MAX_MIB_SIZE << mi_wide_l2[pli])],
xd->plane[pli].dst.stride, dst,
&src[OD_FILT_VBORDER * OD_FILT_BSTRIDE + OD_FILT_HBORDER],
xdec[pli], ydec[pli], dir, NULL, var, pli, dlist, dering_count,
level, clpf_strength, clpf_damping, dering_damping, coeff_shift,
0, 1);
} else {
#endif
od_dering(&xd->plane[pli]
.dst.buf[xd->plane[pli].dst.stride *
(MAX_MIB_SIZE * sbr << mi_high_l2[pli]) +
(sbc * MAX_MIB_SIZE << mi_wide_l2[pli])],
xd->plane[pli].dst.stride, dst,
&src[OD_FILT_VBORDER * OD_FILT_BSTRIDE + OD_FILT_HBORDER],
xdec[pli], ydec[pli], dir, NULL, var, pli, dlist,
dering_count, level, clpf_strength, clpf_damping,
dering_damping, coeff_shift, 0, 0);
#if CONFIG_HIGHBITDEPTH
}
#endif
}
dering_left = 1;
}
{
unsigned char *tmp;
tmp = prev_row_dering;
prev_row_dering = curr_row_dering;
curr_row_dering = tmp;
}
}
aom_free(row_dering);
for (pli = 0; pli < nplanes; pli++) {
aom_free(linebuf[pli]);
aom_free(colbuf[pli]);
}
}
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