Coverage Report

Created: 2026-07-16 06:31

next uncovered line (L), next uncovered region (R), next uncovered branch (B)
/work/dav1d/src/lf_mask.c
Line
Count
Source
1
/*
2
 * Copyright © 2018, VideoLAN and dav1d authors
3
 * Copyright © 2018, Two Orioles, LLC
4
 * All rights reserved.
5
 *
6
 * Redistribution and use in source and binary forms, with or without
7
 * modification, are permitted provided that the following conditions are met:
8
 *
9
 * 1. Redistributions of source code must retain the above copyright notice, this
10
 *    list of conditions and the following disclaimer.
11
 *
12
 * 2. Redistributions in binary form must reproduce the above copyright notice,
13
 *    this list of conditions and the following disclaimer in the documentation
14
 *    and/or other materials provided with the distribution.
15
 *
16
 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
17
 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
18
 * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
19
 * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR
20
 * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
21
 * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
22
 * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
23
 * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
24
 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
25
 * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
26
 */
27
28
#include "config.h"
29
30
#include <string.h>
31
32
#include "common/intops.h"
33
34
#include "src/ctx.h"
35
#include "src/levels.h"
36
#include "src/lf_mask.h"
37
#include "src/tables.h"
38
39
static void decomp_tx(uint8_t (*const txa)[2 /* txsz, step */][32 /* y */][32 /* x */],
40
                      const enum RectTxfmSize from,
41
                      const int depth,
42
                      const int y_off, const int x_off,
43
                      const uint16_t *const tx_masks)
44
239k
{
45
239k
    const TxfmInfo *const t_dim = &dav1d_txfm_dimensions[from];
46
239k
    const int is_split = (from == (int) TX_4X4 || depth > 1) ? 0 :
47
239k
        (tx_masks[depth] >> (y_off * 4 + x_off)) & 1;
48
49
239k
    if (is_split) {
50
25.1k
        const enum RectTxfmSize sub = t_dim->sub;
51
25.1k
        const int htw4 = t_dim->w >> 1, hth4 = t_dim->h >> 1;
52
53
25.1k
        decomp_tx(txa, sub, depth + 1, y_off * 2 + 0, x_off * 2 + 0, tx_masks);
54
25.1k
        if (t_dim->w >= t_dim->h)
55
19.8k
            decomp_tx((uint8_t(*)[2][32][32]) &txa[0][0][0][htw4],
56
19.8k
                      sub, depth + 1, y_off * 2 + 0, x_off * 2 + 1, tx_masks);
57
25.1k
        if (t_dim->h >= t_dim->w) {
58
17.9k
            decomp_tx((uint8_t(*)[2][32][32]) &txa[0][0][hth4][0],
59
17.9k
                      sub, depth + 1, y_off * 2 + 1, x_off * 2 + 0, tx_masks);
60
17.9k
            if (t_dim->w >= t_dim->h)
61
12.6k
                decomp_tx((uint8_t(*)[2][32][32]) &txa[0][0][hth4][htw4],
62
12.6k
                          sub, depth + 1, y_off * 2 + 1, x_off * 2 + 1, tx_masks);
63
17.9k
        }
64
214k
    } else {
65
214k
        const int lw = imin(2, t_dim->lw), lh = imin(2, t_dim->lh);
66
67
214k
#define set_ctx(rep_macro) \
68
897k
        for (int y = 0; y < t_dim->h; y++) { \
69
683k
            rep_macro(txa[0][0][y], 0, lw); \
70
683k
            rep_macro(txa[1][0][y], 0, lh); \
71
683k
            txa[0][1][y][0] = t_dim->w; \
72
683k
        }
73
214k
        case_set_upto16(t_dim->lw);
74
214k
#undef set_ctx
75
214k
        dav1d_memset_pow2[t_dim->lw](txa[1][1][0], t_dim->h);
76
214k
    }
77
239k
}
78
79
static inline void mask_edges_inter(uint16_t (*const masks)[32][3][2],
80
                                    const int by4, const int bx4,
81
                                    const int w4, const int h4, const int skip,
82
                                    const enum RectTxfmSize max_tx,
83
                                    const uint16_t *const tx_masks,
84
                                    uint8_t *const a, uint8_t *const l)
85
153k
{
86
153k
    const TxfmInfo *const t_dim = &dav1d_txfm_dimensions[max_tx];
87
153k
    int y, x;
88
89
153k
    ALIGN_STK_16(uint8_t, txa, 2 /* edge */, [2 /* txsz, step */][32 /* y */][32 /* x */]);
90
309k
    for (int y_off = 0, y = 0; y < h4; y += t_dim->h, y_off++)
91
319k
        for (int x_off = 0, x = 0; x < w4; x += t_dim->w, x_off++)
92
163k
            decomp_tx((uint8_t(*)[2][32][32]) &txa[0][0][y][x],
93
163k
                      max_tx, 0, y_off, x_off, tx_masks);
94
95
    // left block edge
96
153k
    unsigned mask = 1U << by4;
97
713k
    for (y = 0; y < h4; y++, mask <<= 1) {
98
560k
        const int sidx = mask >= 0x10000;
99
560k
        const unsigned smask = mask >> (sidx << 4);
100
560k
        masks[0][bx4][imin(txa[0][0][y][0], l[y])][sidx] |= smask;
101
560k
    }
102
103
    // top block edge
104
654k
    for (x = 0, mask = 1U << bx4; x < w4; x++, mask <<= 1) {
105
501k
        const int sidx = mask >= 0x10000;
106
501k
        const unsigned smask = mask >> (sidx << 4);
107
501k
        masks[1][by4][imin(txa[1][0][0][x], a[x])][sidx] |= smask;
108
501k
    }
109
110
153k
    if (!skip) {
111
        // inner (tx) left|right edges
112
425k
        for (y = 0, mask = 1U << by4; y < h4; y++, mask <<= 1) {
113
332k
            const int sidx = mask >= 0x10000U;
114
332k
            const unsigned smask = mask >> (sidx << 4);
115
332k
            int ltx = txa[0][0][y][0];
116
332k
            int step = txa[0][1][y][0];
117
394k
            for (x = step; x < w4; x += step) {
118
62.2k
                const int rtx = txa[0][0][y][x];
119
62.2k
                masks[0][bx4 + x][imin(rtx, ltx)][sidx] |= smask;
120
62.2k
                ltx = rtx;
121
62.2k
                step = txa[0][1][y][x];
122
62.2k
            }
123
332k
        }
124
125
        //            top
126
        // inner (tx) --- edges
127
        //           bottom
128
430k
        for (x = 0, mask = 1U << bx4; x < w4; x++, mask <<= 1) {
129
336k
            const int sidx = mask >= 0x10000U;
130
336k
            const unsigned smask = mask >> (sidx << 4);
131
336k
            int ttx = txa[1][0][0][x];
132
336k
            int step = txa[1][1][0][x];
133
397k
            for (y = step; y < h4; y += step) {
134
61.2k
                const int btx = txa[1][0][y][x];
135
61.2k
                masks[1][by4 + y][imin(ttx, btx)][sidx] |= smask;
136
61.2k
                ttx = btx;
137
61.2k
                step = txa[1][1][y][x];
138
61.2k
            }
139
336k
        }
140
93.6k
    }
141
142
713k
    for (y = 0; y < h4; y++)
143
560k
        l[y] = txa[0][0][y][w4 - 1];
144
153k
    memcpy(a, txa[1][0][h4 - 1], w4);
145
153k
}
146
147
static inline void mask_edges_intra(uint16_t (*const masks)[32][3][2],
148
                                    const int by4, const int bx4,
149
                                    const int w4, const int h4,
150
                                    const enum RectTxfmSize tx,
151
                                    uint8_t *const a, uint8_t *const l)
152
552k
{
153
552k
    const TxfmInfo *const t_dim = &dav1d_txfm_dimensions[tx];
154
552k
    const int twl4 = t_dim->lw, thl4 = t_dim->lh;
155
552k
    const int twl4c = imin(2, twl4), thl4c = imin(2, thl4);
156
552k
    int y, x;
157
158
    // left block edge
159
552k
    unsigned mask = 1U << by4;
160
4.42M
    for (y = 0; y < h4; y++, mask <<= 1) {
161
3.87M
        const int sidx = mask >= 0x10000;
162
3.87M
        const unsigned smask = mask >> (sidx << 4);
163
3.87M
        masks[0][bx4][imin(twl4c, l[y])][sidx] |= smask;
164
3.87M
    }
165
166
    // top block edge
167
3.80M
    for (x = 0, mask = 1U << bx4; x < w4; x++, mask <<= 1) {
168
3.25M
        const int sidx = mask >= 0x10000;
169
3.25M
        const unsigned smask = mask >> (sidx << 4);
170
3.25M
        masks[1][by4][imin(thl4c, a[x])][sidx] |= smask;
171
3.25M
    }
172
173
    // inner (tx) left|right edges
174
552k
    const int hstep = t_dim->w;
175
552k
    unsigned t = 1U << by4;
176
552k
    unsigned inner = (unsigned) ((((uint64_t) t) << h4) - t);
177
552k
    unsigned inner1 = inner & 0xffff, inner2 = inner >> 16;
178
772k
    for (x = hstep; x < w4; x += hstep) {
179
219k
        if (inner1) masks[0][bx4 + x][twl4c][0] |= inner1;
180
219k
        if (inner2) masks[0][bx4 + x][twl4c][1] |= inner2;
181
219k
    }
182
183
    //            top
184
    // inner (tx) --- edges
185
    //           bottom
186
552k
    const int vstep = t_dim->h;
187
552k
    t = 1U << bx4;
188
552k
    inner = (unsigned) ((((uint64_t) t) << w4) - t);
189
552k
    inner1 = inner & 0xffff;
190
552k
    inner2 = inner >> 16;
191
853k
    for (y = vstep; y < h4; y += vstep) {
192
301k
        if (inner1) masks[1][by4 + y][thl4c][0] |= inner1;
193
301k
        if (inner2) masks[1][by4 + y][thl4c][1] |= inner2;
194
301k
    }
195
196
552k
    dav1d_memset_likely_pow2(a, thl4c, w4);
197
552k
    dav1d_memset_likely_pow2(l, twl4c, h4);
198
552k
}
199
200
static void mask_edges_chroma(uint16_t (*const masks)[32][2][2],
201
                              const int cby4, const int cbx4,
202
                              const int cw4, const int ch4,
203
                              const int skip_inter,
204
                              const enum RectTxfmSize tx,
205
                              uint8_t *const a, uint8_t *const l,
206
                              const int ss_hor, const int ss_ver)
207
585k
{
208
585k
    const TxfmInfo *const t_dim = &dav1d_txfm_dimensions[tx];
209
585k
    const int twl4 = t_dim->lw, thl4 = t_dim->lh;
210
585k
    const int twl4c = !!twl4, thl4c = !!thl4;
211
585k
    int y, x;
212
585k
    const int vbits = 4 - ss_ver, hbits = 4 - ss_hor;
213
585k
    const int vmask = 16 >> ss_ver, hmask = 16 >> ss_hor;
214
585k
    const unsigned vmax = 1 << vmask, hmax = 1 << hmask;
215
216
    // left block edge
217
585k
    unsigned mask = 1U << cby4;
218
3.67M
    for (y = 0; y < ch4; y++, mask <<= 1) {
219
3.09M
        const int sidx = mask >= vmax;
220
3.09M
        const unsigned smask = mask >> (sidx << vbits);
221
3.09M
        masks[0][cbx4][imin(twl4c, l[y])][sidx] |= smask;
222
3.09M
    }
223
224
    // top block edge
225
3.17M
    for (x = 0, mask = 1U << cbx4; x < cw4; x++, mask <<= 1) {
226
2.59M
        const int sidx = mask >= hmax;
227
2.59M
        const unsigned smask = mask >> (sidx << hbits);
228
2.59M
        masks[1][cby4][imin(thl4c, a[x])][sidx] |= smask;
229
2.59M
    }
230
231
585k
    if (!skip_inter) {
232
        // inner (tx) left|right edges
233
541k
        const int hstep = t_dim->w;
234
541k
        unsigned t = 1U << cby4;
235
541k
        unsigned inner = (unsigned) ((((uint64_t) t) << ch4) - t);
236
541k
        unsigned inner1 = inner & ((1 << vmask) - 1), inner2 = inner >> vmask;
237
638k
        for (x = hstep; x < cw4; x += hstep) {
238
96.5k
            if (inner1) masks[0][cbx4 + x][twl4c][0] |= inner1;
239
96.5k
            if (inner2) masks[0][cbx4 + x][twl4c][1] |= inner2;
240
96.5k
        }
241
242
        //            top
243
        // inner (tx) --- edges
244
        //           bottom
245
541k
        const int vstep = t_dim->h;
246
541k
        t = 1U << cbx4;
247
541k
        inner = (unsigned) ((((uint64_t) t) << cw4) - t);
248
541k
        inner1 = inner & ((1 << hmask) - 1), inner2 = inner >> hmask;
249
684k
        for (y = vstep; y < ch4; y += vstep) {
250
142k
            if (inner1) masks[1][cby4 + y][thl4c][0] |= inner1;
251
142k
            if (inner2) masks[1][cby4 + y][thl4c][1] |= inner2;
252
142k
        }
253
541k
    }
254
255
585k
    dav1d_memset_likely_pow2(a, thl4c, cw4);
256
585k
    dav1d_memset_likely_pow2(l, twl4c, ch4);
257
585k
}
258
259
void dav1d_create_lf_mask_intra(Av1Filter *const lflvl,
260
                                uint8_t (*const level_cache)[4],
261
                                const ptrdiff_t b4_stride,
262
                                const uint8_t (*filter_level)[8][2],
263
                                const int bx, const int by,
264
                                const int iw, const int ih,
265
                                const enum BlockSize bs,
266
                                const enum RectTxfmSize ytx,
267
                                const enum RectTxfmSize uvtx,
268
                                const enum Dav1dPixelLayout layout,
269
                                uint8_t *const ay, uint8_t *const ly,
270
                                uint8_t *const auv, uint8_t *const luv)
271
597k
{
272
597k
    const uint8_t *const b_dim = dav1d_block_dimensions[bs];
273
597k
    const int bw4 = imin(iw - bx, b_dim[0]);
274
597k
    const int bh4 = imin(ih - by, b_dim[1]);
275
597k
    const int bx4 = bx & 31;
276
597k
    const int by4 = by & 31;
277
597k
    assert(bw4 >= 0 && bh4 >= 0);
278
279
597k
    if (bw4 && bh4) {
280
552k
        uint8_t (*level_cache_ptr)[4] = level_cache + by * b4_stride + bx;
281
4.40M
        for (int y = 0; y < bh4; y++) {
282
45.6M
            for (int x = 0; x < bw4; x++) {
283
41.8M
                level_cache_ptr[x][0] = filter_level[0][0][0];
284
41.8M
                level_cache_ptr[x][1] = filter_level[1][0][0];
285
41.8M
            }
286
3.85M
            level_cache_ptr += b4_stride;
287
3.85M
        }
288
289
552k
        mask_edges_intra(lflvl->filter_y, by4, bx4, bw4, bh4, ytx, ay, ly);
290
552k
    }
291
292
597k
    if (!auv) return;
293
294
511k
    const int ss_ver = layout == DAV1D_PIXEL_LAYOUT_I420;
295
511k
    const int ss_hor = layout != DAV1D_PIXEL_LAYOUT_I444;
296
511k
    const int cbw4 = imin(((iw + ss_hor) >> ss_hor) - (bx >> ss_hor),
297
511k
                          (b_dim[0] + ss_hor) >> ss_hor);
298
511k
    const int cbh4 = imin(((ih + ss_ver) >> ss_ver) - (by >> ss_ver),
299
511k
                          (b_dim[1] + ss_ver) >> ss_ver);
300
511k
    assert(cbw4 >= 0 && cbh4 >= 0);
301
302
511k
    if (!cbw4 || !cbh4) return;
303
304
473k
    const int cbx4 = bx4 >> ss_hor;
305
473k
    const int cby4 = by4 >> ss_ver;
306
307
473k
    uint8_t (*level_cache_ptr)[4] =
308
473k
        level_cache + (by >> ss_ver) * b4_stride + (bx >> ss_hor);
309
3.28M
    for (int y = 0; y < cbh4; y++) {
310
28.8M
        for (int x = 0; x < cbw4; x++) {
311
26.0M
            level_cache_ptr[x][2] = filter_level[2][0][0];
312
26.0M
            level_cache_ptr[x][3] = filter_level[3][0][0];
313
26.0M
        }
314
2.81M
        level_cache_ptr += b4_stride;
315
2.81M
    }
316
317
473k
    mask_edges_chroma(lflvl->filter_uv, cby4, cbx4, cbw4, cbh4, 0, uvtx,
318
473k
                      auv, luv, ss_hor, ss_ver);
319
473k
}
320
321
void dav1d_create_lf_mask_inter(Av1Filter *const lflvl,
322
                                uint8_t (*const level_cache)[4],
323
                                const ptrdiff_t b4_stride,
324
                                const uint8_t (*filter_level)[8][2],
325
                                const int bx, const int by,
326
                                const int iw, const int ih,
327
                                const int skip, const enum BlockSize bs,
328
                                const enum RectTxfmSize max_ytx,
329
                                const uint16_t *const tx_masks,
330
                                const enum RectTxfmSize uvtx,
331
                                const enum Dav1dPixelLayout layout,
332
                                uint8_t *const ay, uint8_t *const ly,
333
                                uint8_t *const auv, uint8_t *const luv)
334
162k
{
335
162k
    const uint8_t *const b_dim = dav1d_block_dimensions[bs];
336
162k
    const int bw4 = imin(iw - bx, b_dim[0]);
337
162k
    const int bh4 = imin(ih - by, b_dim[1]);
338
162k
    const int bx4 = bx & 31;
339
162k
    const int by4 = by & 31;
340
162k
    assert(bw4 >= 0 && bh4 >= 0);
341
342
162k
    if (bw4 && bh4) {
343
153k
        uint8_t (*level_cache_ptr)[4] = level_cache + by * b4_stride + bx;
344
713k
        for (int y = 0; y < bh4; y++) {
345
3.16M
            for (int x = 0; x < bw4; x++) {
346
2.60M
                level_cache_ptr[x][0] = filter_level[0][0][0];
347
2.60M
                level_cache_ptr[x][1] = filter_level[1][0][0];
348
2.60M
            }
349
560k
            level_cache_ptr += b4_stride;
350
560k
        }
351
352
153k
        mask_edges_inter(lflvl->filter_y, by4, bx4, bw4, bh4, skip,
353
153k
                         max_ytx, tx_masks, ay, ly);
354
153k
    }
355
356
162k
    if (!auv) return;
357
358
114k
    const int ss_ver = layout == DAV1D_PIXEL_LAYOUT_I420;
359
114k
    const int ss_hor = layout != DAV1D_PIXEL_LAYOUT_I444;
360
114k
    const int cbw4 = imin(((iw + ss_hor) >> ss_hor) - (bx >> ss_hor),
361
114k
                          (b_dim[0] + ss_hor) >> ss_hor);
362
114k
    const int cbh4 = imin(((ih + ss_ver) >> ss_ver) - (by >> ss_ver),
363
114k
                          (b_dim[1] + ss_ver) >> ss_ver);
364
114k
    assert(cbw4 >= 0 && cbh4 >= 0);
365
366
114k
    if (!cbw4 || !cbh4) return;
367
368
112k
    const int cbx4 = bx4 >> ss_hor;
369
112k
    const int cby4 = by4 >> ss_ver;
370
371
112k
    uint8_t (*level_cache_ptr)[4] =
372
112k
        level_cache + (by >> ss_ver) * b4_stride + (bx >> ss_hor);
373
383k
    for (int y = 0; y < cbh4; y++) {
374
1.06M
        for (int x = 0; x < cbw4; x++) {
375
796k
            level_cache_ptr[x][2] = filter_level[2][0][0];
376
796k
            level_cache_ptr[x][3] = filter_level[3][0][0];
377
796k
        }
378
270k
        level_cache_ptr += b4_stride;
379
270k
    }
380
381
112k
    mask_edges_chroma(lflvl->filter_uv, cby4, cbx4, cbw4, cbh4, skip, uvtx,
382
112k
                      auv, luv, ss_hor, ss_ver);
383
112k
}
384
385
51.6k
void dav1d_calc_eih(Av1FilterLUT *const lim_lut, const int filter_sharpness) {
386
    // set E/I/H values from loopfilter level
387
51.6k
    const int sharp = filter_sharpness;
388
3.35M
    for (int level = 0; level < 64; level++) {
389
3.30M
        int limit = level;
390
391
3.30M
        if (sharp > 0) {
392
1.44M
            limit >>= (sharp + 3) >> 2;
393
1.44M
            limit = imin(limit, 9 - sharp);
394
1.44M
        }
395
3.30M
        limit = imax(limit, 1);
396
397
3.30M
        lim_lut->i[level] = limit;
398
3.30M
        lim_lut->e[level] = 2 * (level + 2) + limit;
399
3.30M
    }
400
51.6k
    lim_lut->sharp[0] = (sharp + 3) >> 2;
401
51.6k
    lim_lut->sharp[1] = sharp ? 9 - sharp : 0xff;
402
51.6k
}
403
404
static void calc_lf_value(uint8_t (*const lflvl_values)[2],
405
                          const int base_lvl, const int lf_delta,
406
                          const int seg_delta,
407
                          const Dav1dLoopfilterModeRefDeltas *const mr_delta)
408
427k
{
409
427k
    const int base = iclip(iclip(base_lvl + lf_delta, 0, 63) + seg_delta, 0, 63);
410
411
427k
    if (!mr_delta) {
412
240k
        memset(lflvl_values, base, sizeof(*lflvl_values) * 8);
413
240k
    } else {
414
186k
        const int sh = base >= 32;
415
186k
        lflvl_values[0][0] = lflvl_values[0][1] =
416
186k
            iclip(base + (mr_delta->ref_delta[0] * (1 << sh)), 0, 63);
417
1.48M
        for (int r = 1; r < 8; r++) {
418
3.90M
            for (int m = 0; m < 2; m++) {
419
2.60M
                const int delta =
420
2.60M
                    mr_delta->mode_delta[m] + mr_delta->ref_delta[r];
421
2.60M
                lflvl_values[r][m] = iclip(base + (delta * (1 << sh)), 0, 63);
422
2.60M
            }
423
1.30M
        }
424
186k
    }
425
427k
}
426
427
static inline void calc_lf_value_chroma(uint8_t (*const lflvl_values)[2],
428
                                        const int base_lvl, const int lf_delta,
429
                                        const int seg_delta,
430
                                        const Dav1dLoopfilterModeRefDeltas *const mr_delta)
431
260k
{
432
260k
    if (!base_lvl)
433
93.0k
        memset(lflvl_values, 0, sizeof(*lflvl_values) * 8);
434
167k
    else
435
167k
        calc_lf_value(lflvl_values, base_lvl, lf_delta, seg_delta, mr_delta);
436
260k
}
437
438
void dav1d_calc_lf_values(uint8_t (*const lflvl_values)[4][8][2],
439
                          const Dav1dFrameHeader *const hdr,
440
                          const int8_t lf_delta[4])
441
60.2k
{
442
60.2k
    const int n_seg = hdr->segmentation.enabled ? 8 : 1;
443
444
60.2k
    if (!hdr->loopfilter.level_y[0] && !hdr->loopfilter.level_y[1]) {
445
19.1k
        memset(lflvl_values, 0, sizeof(*lflvl_values) * n_seg);
446
19.1k
        return;
447
19.1k
    }
448
449
41.0k
    const Dav1dLoopfilterModeRefDeltas *const mr_deltas =
450
41.0k
        hdr->loopfilter.mode_ref_delta_enabled ?
451
41.0k
        &hdr->loopfilter.mode_ref_deltas : NULL;
452
171k
    for (int s = 0; s < n_seg; s++) {
453
130k
        const Dav1dSegmentationData *const segd =
454
130k
            hdr->segmentation.enabled ? &hdr->segmentation.seg_data.d[s] : NULL;
455
456
130k
        calc_lf_value(lflvl_values[s][0], hdr->loopfilter.level_y[0],
457
130k
                      lf_delta[0], segd ? segd->delta_lf_y_v : 0, mr_deltas);
458
130k
        calc_lf_value(lflvl_values[s][1], hdr->loopfilter.level_y[1],
459
130k
                      lf_delta[hdr->delta.lf.multi ? 1 : 0],
460
130k
                      segd ? segd->delta_lf_y_h : 0, mr_deltas);
461
130k
        calc_lf_value_chroma(lflvl_values[s][2], hdr->loopfilter.level_u,
462
130k
                             lf_delta[hdr->delta.lf.multi ? 2 : 0],
463
130k
                             segd ? segd->delta_lf_u : 0, mr_deltas);
464
130k
        calc_lf_value_chroma(lflvl_values[s][3], hdr->loopfilter.level_v,
465
130k
                             lf_delta[hdr->delta.lf.multi ? 3 : 0],
466
130k
                             segd ? segd->delta_lf_v : 0, mr_deltas);
467
130k
    }
468
41.0k
}