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/*
* Copyright © 2018, VideoLAN and dav1d authors
* Copyright © 2018, Two Orioles, LLC
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* 1. Redistributions of source code must retain the above copyright notice, this
* list of conditions and the following disclaimer.
*
* 2. Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR
* ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include "config.h"
#include <string.h>
#include "common/intops.h"
#include "src/ctx.h"
#include "src/levels.h"
#include "src/lf_mask.h"
#include "src/tables.h"
static void decomp_tx(uint8_t (*const txa)[2 /* txsz, step */][32 /* y */][32 /* x */],
const enum RectTxfmSize from,
const int depth,
const int y_off, const int x_off,
const uint16_t *const tx_masks)
{
const TxfmInfo *const t_dim = &dav1d_txfm_dimensions[from];
const int is_split = (from == (int) TX_4X4 || depth > 1) ? 0 :
(tx_masks[depth] >> (y_off * 4 + x_off)) & 1;
if (is_split) {
const enum RectTxfmSize sub = t_dim->sub;
const int htw4 = t_dim->w >> 1, hth4 = t_dim->h >> 1;
decomp_tx(txa, sub, depth + 1, y_off * 2 + 0, x_off * 2 + 0, tx_masks);
if (t_dim->w >= t_dim->h)
decomp_tx((uint8_t(*)[2][32][32]) &txa[0][0][0][htw4],
sub, depth + 1, y_off * 2 + 0, x_off * 2 + 1, tx_masks);
if (t_dim->h >= t_dim->w) {
decomp_tx((uint8_t(*)[2][32][32]) &txa[0][0][hth4][0],
sub, depth + 1, y_off * 2 + 1, x_off * 2 + 0, tx_masks);
if (t_dim->w >= t_dim->h)
decomp_tx((uint8_t(*)[2][32][32]) &txa[0][0][hth4][htw4],
sub, depth + 1, y_off * 2 + 1, x_off * 2 + 1, tx_masks);
}
} else {
const int lw = imin(2, t_dim->lw), lh = imin(2, t_dim->lh);
#define set_ctx(rep_macro) \
for (int y = 0; y < t_dim->h; y++) { \
rep_macro(txa[0][0][y], 0, lw); \
rep_macro(txa[1][0][y], 0, lh); \
txa[0][1][y][0] = t_dim->w; \
}
case_set_upto16(t_dim->lw);
#undef set_ctx
dav1d_memset_pow2[t_dim->lw](txa[1][1][0], t_dim->h);
}
}
static inline void mask_edges_inter(uint16_t (*const masks)[32][3][2],
const int by4, const int bx4,
const int w4, const int h4, const int skip,
const enum RectTxfmSize max_tx,
const uint16_t *const tx_masks,
uint8_t *const a, uint8_t *const l)
{
const TxfmInfo *const t_dim = &dav1d_txfm_dimensions[max_tx];
int y, x;
ALIGN_STK_16(uint8_t, txa, 2 /* edge */, [2 /* txsz, step */][32 /* y */][32 /* x */]);
for (int y_off = 0, y = 0; y < h4; y += t_dim->h, y_off++)
for (int x_off = 0, x = 0; x < w4; x += t_dim->w, x_off++)
decomp_tx((uint8_t(*)[2][32][32]) &txa[0][0][y][x],
max_tx, 0, y_off, x_off, tx_masks);
// left block edge
unsigned mask = 1U << by4;
for (y = 0; y < h4; y++, mask <<= 1) {
const int sidx = mask >= 0x10000;
const unsigned smask = mask >> (sidx << 4);
masks[0][bx4][imin(txa[0][0][y][0], l[y])][sidx] |= smask;
}
// top block edge
for (x = 0, mask = 1U << bx4; x < w4; x++, mask <<= 1) {
const int sidx = mask >= 0x10000;
const unsigned smask = mask >> (sidx << 4);
masks[1][by4][imin(txa[1][0][0][x], a[x])][sidx] |= smask;
}
if (!skip) {
// inner (tx) left|right edges
for (y = 0, mask = 1U << by4; y < h4; y++, mask <<= 1) {
const int sidx = mask >= 0x10000U;
const unsigned smask = mask >> (sidx << 4);
int ltx = txa[0][0][y][0];
int step = txa[0][1][y][0];
for (x = step; x < w4; x += step) {
const int rtx = txa[0][0][y][x];
masks[0][bx4 + x][imin(rtx, ltx)][sidx] |= smask;
ltx = rtx;
step = txa[0][1][y][x];
}
}
// top
// inner (tx) --- edges
// bottom
for (x = 0, mask = 1U << bx4; x < w4; x++, mask <<= 1) {
const int sidx = mask >= 0x10000U;
const unsigned smask = mask >> (sidx << 4);
int ttx = txa[1][0][0][x];
int step = txa[1][1][0][x];
for (y = step; y < h4; y += step) {
const int btx = txa[1][0][y][x];
masks[1][by4 + y][imin(ttx, btx)][sidx] |= smask;
ttx = btx;
step = txa[1][1][y][x];
}
}
}
for (y = 0; y < h4; y++)
l[y] = txa[0][0][y][w4 - 1];
memcpy(a, txa[1][0][h4 - 1], w4);
}
static inline void mask_edges_intra(uint16_t (*const masks)[32][3][2],
const int by4, const int bx4,
const int w4, const int h4,
const enum RectTxfmSize tx,
uint8_t *const a, uint8_t *const l)
{
const TxfmInfo *const t_dim = &dav1d_txfm_dimensions[tx];
const int twl4 = t_dim->lw, thl4 = t_dim->lh;
const int twl4c = imin(2, twl4), thl4c = imin(2, thl4);
int y, x;
// left block edge
unsigned mask = 1U << by4;
for (y = 0; y < h4; y++, mask <<= 1) {
const int sidx = mask >= 0x10000;
const unsigned smask = mask >> (sidx << 4);
masks[0][bx4][imin(twl4c, l[y])][sidx] |= smask;
}
// top block edge
for (x = 0, mask = 1U << bx4; x < w4; x++, mask <<= 1) {
const int sidx = mask >= 0x10000;
const unsigned smask = mask >> (sidx << 4);
masks[1][by4][imin(thl4c, a[x])][sidx] |= smask;
}
// inner (tx) left|right edges
const int hstep = t_dim->w;
unsigned t = 1U << by4;
unsigned inner = (unsigned) ((((uint64_t) t) << h4) - t);
unsigned inner1 = inner & 0xffff, inner2 = inner >> 16;
for (x = hstep; x < w4; x += hstep) {
if (inner1) masks[0][bx4 + x][twl4c][0] |= inner1;
if (inner2) masks[0][bx4 + x][twl4c][1] |= inner2;
}
// top
// inner (tx) --- edges
// bottom
const int vstep = t_dim->h;
t = 1U << bx4;
inner = (unsigned) ((((uint64_t) t) << w4) - t);
inner1 = inner & 0xffff;
inner2 = inner >> 16;
for (y = vstep; y < h4; y += vstep) {
if (inner1) masks[1][by4 + y][thl4c][0] |= inner1;
if (inner2) masks[1][by4 + y][thl4c][1] |= inner2;
}
dav1d_memset_likely_pow2(a, thl4c, w4);
dav1d_memset_likely_pow2(l, twl4c, h4);
}
static void mask_edges_chroma(uint16_t (*const masks)[32][2][2],
const int cby4, const int cbx4,
const int cw4, const int ch4,
const int skip_inter,
const enum RectTxfmSize tx,
uint8_t *const a, uint8_t *const l,
const int ss_hor, const int ss_ver)
{
const TxfmInfo *const t_dim = &dav1d_txfm_dimensions[tx];
const int twl4 = t_dim->lw, thl4 = t_dim->lh;
const int twl4c = !!twl4, thl4c = !!thl4;
int y, x;
const int vbits = 4 - ss_ver, hbits = 4 - ss_hor;
const int vmask = 16 >> ss_ver, hmask = 16 >> ss_hor;
const unsigned vmax = 1 << vmask, hmax = 1 << hmask;
// left block edge
unsigned mask = 1U << cby4;
for (y = 0; y < ch4; y++, mask <<= 1) {
const int sidx = mask >= vmax;
const unsigned smask = mask >> (sidx << vbits);
masks[0][cbx4][imin(twl4c, l[y])][sidx] |= smask;
}
// top block edge
for (x = 0, mask = 1U << cbx4; x < cw4; x++, mask <<= 1) {
const int sidx = mask >= hmax;
const unsigned smask = mask >> (sidx << hbits);
masks[1][cby4][imin(thl4c, a[x])][sidx] |= smask;
}
if (!skip_inter) {
// inner (tx) left|right edges
const int hstep = t_dim->w;
unsigned t = 1U << cby4;
unsigned inner = (unsigned) ((((uint64_t) t) << ch4) - t);
unsigned inner1 = inner & ((1 << vmask) - 1), inner2 = inner >> vmask;
for (x = hstep; x < cw4; x += hstep) {
if (inner1) masks[0][cbx4 + x][twl4c][0] |= inner1;
if (inner2) masks[0][cbx4 + x][twl4c][1] |= inner2;
}
// top
// inner (tx) --- edges
// bottom
const int vstep = t_dim->h;
t = 1U << cbx4;
inner = (unsigned) ((((uint64_t) t) << cw4) - t);
inner1 = inner & ((1 << hmask) - 1), inner2 = inner >> hmask;
for (y = vstep; y < ch4; y += vstep) {
if (inner1) masks[1][cby4 + y][thl4c][0] |= inner1;
if (inner2) masks[1][cby4 + y][thl4c][1] |= inner2;
}
}
dav1d_memset_likely_pow2(a, thl4c, cw4);
dav1d_memset_likely_pow2(l, twl4c, ch4);
}
void dav1d_create_lf_mask_intra(Av1Filter *const lflvl,
uint8_t (*const level_cache)[4],
const ptrdiff_t b4_stride,
const uint8_t (*filter_level)[8][2],
const int bx, const int by,
const int iw, const int ih,
const enum BlockSize bs,
const enum RectTxfmSize ytx,
const enum RectTxfmSize uvtx,
const enum Dav1dPixelLayout layout,
uint8_t *const ay, uint8_t *const ly,
uint8_t *const auv, uint8_t *const luv)
{
const uint8_t *const b_dim = dav1d_block_dimensions[bs];
const int bw4 = imin(iw - bx, b_dim[0]);
const int bh4 = imin(ih - by, b_dim[1]);
const int bx4 = bx & 31;
const int by4 = by & 31;
assert(bw4 >= 0 && bh4 >= 0);
if (bw4 && bh4) {
uint8_t (*level_cache_ptr)[4] = level_cache + by * b4_stride + bx;
for (int y = 0; y < bh4; y++) {
for (int x = 0; x < bw4; x++) {
level_cache_ptr[x][0] = filter_level[0][0][0];
level_cache_ptr[x][1] = filter_level[1][0][0];
}
level_cache_ptr += b4_stride;
}
mask_edges_intra(lflvl->filter_y, by4, bx4, bw4, bh4, ytx, ay, ly);
}
if (!auv) return;
const int ss_ver = layout == DAV1D_PIXEL_LAYOUT_I420;
const int ss_hor = layout != DAV1D_PIXEL_LAYOUT_I444;
const int cbw4 = imin(((iw + ss_hor) >> ss_hor) - (bx >> ss_hor),
(b_dim[0] + ss_hor) >> ss_hor);
const int cbh4 = imin(((ih + ss_ver) >> ss_ver) - (by >> ss_ver),
(b_dim[1] + ss_ver) >> ss_ver);
assert(cbw4 >= 0 && cbh4 >= 0);
if (!cbw4 || !cbh4) return;
const int cbx4 = bx4 >> ss_hor;
const int cby4 = by4 >> ss_ver;
uint8_t (*level_cache_ptr)[4] =
level_cache + (by >> ss_ver) * b4_stride + (bx >> ss_hor);
for (int y = 0; y < cbh4; y++) {
for (int x = 0; x < cbw4; x++) {
level_cache_ptr[x][2] = filter_level[2][0][0];
level_cache_ptr[x][3] = filter_level[3][0][0];
}
level_cache_ptr += b4_stride;
}
mask_edges_chroma(lflvl->filter_uv, cby4, cbx4, cbw4, cbh4, 0, uvtx,
auv, luv, ss_hor, ss_ver);
}
void dav1d_create_lf_mask_inter(Av1Filter *const lflvl,
uint8_t (*const level_cache)[4],
const ptrdiff_t b4_stride,
const uint8_t (*filter_level)[8][2],
const int bx, const int by,
const int iw, const int ih,
const int skip, const enum BlockSize bs,
const enum RectTxfmSize max_ytx,
const uint16_t *const tx_masks,
const enum RectTxfmSize uvtx,
const enum Dav1dPixelLayout layout,
uint8_t *const ay, uint8_t *const ly,
uint8_t *const auv, uint8_t *const luv)
{
const uint8_t *const b_dim = dav1d_block_dimensions[bs];
const int bw4 = imin(iw - bx, b_dim[0]);
const int bh4 = imin(ih - by, b_dim[1]);
const int bx4 = bx & 31;
const int by4 = by & 31;
assert(bw4 >= 0 && bh4 >= 0);
if (bw4 && bh4) {
uint8_t (*level_cache_ptr)[4] = level_cache + by * b4_stride + bx;
for (int y = 0; y < bh4; y++) {
for (int x = 0; x < bw4; x++) {
level_cache_ptr[x][0] = filter_level[0][0][0];
level_cache_ptr[x][1] = filter_level[1][0][0];
}
level_cache_ptr += b4_stride;
}
mask_edges_inter(lflvl->filter_y, by4, bx4, bw4, bh4, skip,
max_ytx, tx_masks, ay, ly);
}
if (!auv) return;
const int ss_ver = layout == DAV1D_PIXEL_LAYOUT_I420;
const int ss_hor = layout != DAV1D_PIXEL_LAYOUT_I444;
const int cbw4 = imin(((iw + ss_hor) >> ss_hor) - (bx >> ss_hor),
(b_dim[0] + ss_hor) >> ss_hor);
const int cbh4 = imin(((ih + ss_ver) >> ss_ver) - (by >> ss_ver),
(b_dim[1] + ss_ver) >> ss_ver);
assert(cbw4 >= 0 && cbh4 >= 0);
if (!cbw4 || !cbh4) return;
const int cbx4 = bx4 >> ss_hor;
const int cby4 = by4 >> ss_ver;
uint8_t (*level_cache_ptr)[4] =
level_cache + (by >> ss_ver) * b4_stride + (bx >> ss_hor);
for (int y = 0; y < cbh4; y++) {
for (int x = 0; x < cbw4; x++) {
level_cache_ptr[x][2] = filter_level[2][0][0];
level_cache_ptr[x][3] = filter_level[3][0][0];
}
level_cache_ptr += b4_stride;
}
mask_edges_chroma(lflvl->filter_uv, cby4, cbx4, cbw4, cbh4, skip, uvtx,
auv, luv, ss_hor, ss_ver);
}
void dav1d_calc_eih(Av1FilterLUT *const lim_lut, const int filter_sharpness) {
// set E/I/H values from loopfilter level
const int sharp = filter_sharpness;
for (int level = 0; level < 64; level++) {
int limit = level;
if (sharp > 0) {
limit >>= (sharp + 3) >> 2;
limit = imin(limit, 9 - sharp);
}
limit = imax(limit, 1);
lim_lut->i[level] = limit;
lim_lut->e[level] = 2 * (level + 2) + limit;
}
lim_lut->sharp[0] = (sharp + 3) >> 2;
lim_lut->sharp[1] = sharp ? 9 - sharp : 0xff;
}
static void calc_lf_value(uint8_t (*const lflvl_values)[2],
const int base_lvl, const int lf_delta,
const int seg_delta,
const Dav1dLoopfilterModeRefDeltas *const mr_delta)
{
const int base = iclip(iclip(base_lvl + lf_delta, 0, 63) + seg_delta, 0, 63);
if (!mr_delta) {
memset(lflvl_values, base, sizeof(*lflvl_values) * 8);
} else {
const int sh = base >= 32;
lflvl_values[0][0] = lflvl_values[0][1] =
iclip(base + (mr_delta->ref_delta[0] * (1 << sh)), 0, 63);
for (int r = 1; r < 8; r++) {
for (int m = 0; m < 2; m++) {
const int delta =
mr_delta->mode_delta[m] + mr_delta->ref_delta[r];
lflvl_values[r][m] = iclip(base + (delta * (1 << sh)), 0, 63);
}
}
}
}
static inline void calc_lf_value_chroma(uint8_t (*const lflvl_values)[2],
const int base_lvl, const int lf_delta,
const int seg_delta,
const Dav1dLoopfilterModeRefDeltas *const mr_delta)
{
if (!base_lvl)
memset(lflvl_values, 0, sizeof(*lflvl_values) * 8);
else
calc_lf_value(lflvl_values, base_lvl, lf_delta, seg_delta, mr_delta);
}
void dav1d_calc_lf_values(uint8_t (*const lflvl_values)[4][8][2],
const Dav1dFrameHeader *const hdr,
const int8_t lf_delta[4])
{
const int n_seg = hdr->segmentation.enabled ? 8 : 1;
if (!hdr->loopfilter.level_y[0] && !hdr->loopfilter.level_y[1]) {
memset(lflvl_values, 0, sizeof(*lflvl_values) * n_seg);
return;
}
const Dav1dLoopfilterModeRefDeltas *const mr_deltas =
hdr->loopfilter.mode_ref_delta_enabled ?
&hdr->loopfilter.mode_ref_deltas : NULL;
for (int s = 0; s < n_seg; s++) {
const Dav1dSegmentationData *const segd =
hdr->segmentation.enabled ? &hdr->segmentation.seg_data.d[s] : NULL;
calc_lf_value(lflvl_values[s][0], hdr->loopfilter.level_y[0],
lf_delta[0], segd ? segd->delta_lf_y_v : 0, mr_deltas);
calc_lf_value(lflvl_values[s][1], hdr->loopfilter.level_y[1],
lf_delta[hdr->delta.lf.multi ? 1 : 0],
segd ? segd->delta_lf_y_h : 0, mr_deltas);
calc_lf_value_chroma(lflvl_values[s][2], hdr->loopfilter.level_u,
lf_delta[hdr->delta.lf.multi ? 2 : 0],
segd ? segd->delta_lf_u : 0, mr_deltas);
calc_lf_value_chroma(lflvl_values[s][3], hdr->loopfilter.level_v,
lf_delta[hdr->delta.lf.multi ? 3 : 0],
segd ? segd->delta_lf_v : 0, mr_deltas);
}
}