Coverage Report

Created: 2026-07-15 06:10

next uncovered line (L), next uncovered region (R), next uncovered branch (B)
/src/libhevc/common/ihevc_sao.c
Line
Count
Source
1
/******************************************************************************
2
*
3
* Copyright (C) 2012 Ittiam Systems Pvt Ltd, Bangalore
4
*
5
* Licensed under the Apache License, Version 2.0 (the "License");
6
* you may not use this file except in compliance with the License.
7
* You may obtain a copy of the License at:
8
*
9
* http://www.apache.org/licenses/LICENSE-2.0
10
*
11
* Unless required by applicable law or agreed to in writing, software
12
* distributed under the License is distributed on an "AS IS" BASIS,
13
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
14
* See the License for the specific language governing permissions and
15
* limitations under the License.
16
*
17
******************************************************************************/
18
/**
19
*******************************************************************************
20
* @file
21
*  ihevc_sao.c
22
*
23
* @brief
24
*  Contains leaf level function definitions for sample adaptive offset process
25
*
26
* @author
27
*  Srinivas T
28
*
29
* @par List of Functions:
30
*   - ihevc_sao_band_offset_luma()
31
*   - ihevc_sao_band_offset_chroma()
32
*   - ihevc_sao_edge_offset_class0()
33
*   - ihevc_sao_edge_offset_class0_chroma()
34
*   - ihevc_sao_edge_offset_class1()
35
*   - ihevc_sao_edge_offset_class1_chroma()
36
*   - ihevc_sao_edge_offset_class2()
37
*   - ihevc_sao_edge_offset_class2_chroma()
38
*   - ihevc_sao_edge_offset_class3()
39
*   - ihevc_sao_edge_offset_class3_chroma()
40
* @remarks
41
*  None
42
*
43
*******************************************************************************
44
*/
45
#include <stdlib.h>
46
#include <assert.h>
47
#include <string.h>
48
#include "ihevc_typedefs.h"
49
#include "ihevc_macros.h"
50
#include "ihevc_platform_macros.h"
51
#include "ihevc_func_selector.h"
52
#include "ihevc_defs.h"
53
#include "ihevc_structs.h"
54
#include "ihevc_sao.h"
55
56
0
#define NUM_BAND_TABLE  32
57
58
const WORD32 gi4_ihevc_table_edge_idx[5] = { 1, 2, 0, 3, 4 };
59
/**
60
 * au4_avail is an array of flags - one for each neighboring block specifying if the block is available
61
 * au4_avail[0] - left
62
 * au4_avail[1] - right
63
 * au4_avail[2] - top
64
 * au4_avail[3] - bottom
65
 * au4_avail[4] - top-left
66
 * au4_avail[5] - top-right
67
 * au4_avail[6] - bottom-left
68
 * au4_avail[7] - bottom-right
69
 */
70
71
72
void ihevc_sao_band_offset_luma(UWORD8 *pu1_src,
73
                                WORD32 src_strd,
74
                                UWORD8 *pu1_src_left,
75
                                UWORD8 *pu1_src_top,
76
                                UWORD8 *pu1_src_top_left,
77
                                WORD32 sao_band_pos,
78
                                WORD8 *pi1_sao_offset,
79
                                WORD32 wd,
80
                                WORD32 ht)
81
0
{
82
0
    WORD32 band_shift;
83
0
    WORD32 band_table[NUM_BAND_TABLE];
84
0
    WORD32 i;
85
0
    WORD32 row, col;
86
87
    /* Updating left and top and top-left */
88
0
    for(row = 0; row < ht; row++)
89
0
    {
90
0
        pu1_src_left[row] = pu1_src[row * src_strd + (wd - 1)];
91
0
    }
92
0
    pu1_src_top_left[0] = pu1_src_top[wd - 1];
93
0
    for(col = 0; col < wd; col++)
94
0
    {
95
0
        pu1_src_top[col] = pu1_src[(ht - 1) * src_strd + col];
96
0
    }
97
98
0
    band_shift = BIT_DEPTH_LUMA - 5;
99
0
    for(i = 0; i < NUM_BAND_TABLE; i++)
100
0
    {
101
0
        band_table[i] = 0;
102
0
    }
103
0
    for(i = 0; i < 4; i++)
104
0
    {
105
0
        band_table[(i + sao_band_pos) & 31] = i + 1;
106
0
    }
107
108
0
    for(row = 0; row < ht; row++)
109
0
    {
110
0
        for(col = 0; col < wd; col++)
111
0
        {
112
0
            WORD32 band_idx;
113
114
0
            band_idx = band_table[pu1_src[col] >> band_shift];
115
0
            pu1_src[col] = CLIP3(pu1_src[col] + pi1_sao_offset[band_idx], 0, (1 << (band_shift + 5)) - 1);
116
0
        }
117
0
        pu1_src += src_strd;
118
0
    }
119
0
}
120
121
122
123
/* input 'wd' has to be for the interleaved block and not for each color component */
124
void ihevc_sao_band_offset_chroma(UWORD8 *pu1_src,
125
                                  WORD32 src_strd,
126
                                  UWORD8 *pu1_src_left,
127
                                  UWORD8 *pu1_src_top,
128
                                  UWORD8 *pu1_src_top_left,
129
                                  WORD32 sao_band_pos_u,
130
                                  WORD32 sao_band_pos_v,
131
                                  WORD8 *pi1_sao_offset_u,
132
                                  WORD8 *pi1_sao_offset_v,
133
                                  WORD32 wd,
134
                                  WORD32 ht)
135
0
{
136
0
    WORD32 band_shift;
137
0
    WORD32 band_table_u[NUM_BAND_TABLE];
138
0
    WORD32 band_table_v[NUM_BAND_TABLE];
139
0
    WORD32 i;
140
0
    WORD32 row, col;
141
142
    /* Updating left and top and top-left */
143
0
    for(row = 0; row < ht; row++)
144
0
    {
145
0
        pu1_src_left[2 * row] = pu1_src[row * src_strd + (wd - 2)];
146
0
        pu1_src_left[2 * row + 1] = pu1_src[row * src_strd + (wd - 1)];
147
0
    }
148
0
    pu1_src_top_left[0] = pu1_src_top[wd - 2];
149
0
    pu1_src_top_left[1] = pu1_src_top[wd - 1];
150
0
    for(col = 0; col < wd; col++)
151
0
    {
152
0
        pu1_src_top[col] = pu1_src[(ht - 1) * src_strd + col];
153
0
    }
154
155
156
0
    band_shift = BIT_DEPTH_CHROMA - 5;
157
0
    for(i = 0; i < NUM_BAND_TABLE; i++)
158
0
    {
159
0
        band_table_u[i] = 0;
160
0
        band_table_v[i] = 0;
161
0
    }
162
0
    for(i = 0; i < 4; i++)
163
0
    {
164
0
        band_table_u[(i + sao_band_pos_u) & 31] = i + 1;
165
0
        band_table_v[(i + sao_band_pos_v) & 31] = i + 1;
166
0
    }
167
168
0
    for(row = 0; row < ht; row++)
169
0
    {
170
0
        for(col = 0; col < wd; col++)
171
0
        {
172
0
            WORD32 band_idx;
173
0
            WORD8 *pi1_sao_offset;
174
175
0
            pi1_sao_offset = (0 == col % 2) ? pi1_sao_offset_u : pi1_sao_offset_v;
176
0
            band_idx = (0 == col % 2) ? band_table_u[pu1_src[col] >> band_shift] : band_table_v[pu1_src[col] >> band_shift];
177
0
            pu1_src[col] = CLIP3(pu1_src[col] + pi1_sao_offset[band_idx], 0, (1 << (band_shift + 5)) - 1);
178
0
        }
179
0
        pu1_src += src_strd;
180
0
    }
181
0
}
182
183
184
185
/* Horizontal filtering */
186
void ihevc_sao_edge_offset_class0(UWORD8 *pu1_src,
187
                                  WORD32 src_strd,
188
                                  UWORD8 *pu1_src_left,
189
                                  UWORD8 *pu1_src_top,
190
                                  UWORD8 *pu1_src_top_left,
191
                                  UWORD8 *pu1_src_top_right,
192
                                  UWORD8 *pu1_src_bot_left,
193
                                  UWORD8 *pu1_avail,
194
                                  WORD8 *pi1_sao_offset,
195
                                  WORD32 wd,
196
                                  WORD32 ht)
197
0
{
198
0
    WORD32 row, col;
199
0
    UWORD8 au1_mask[MAX_CTB_SIZE];
200
0
    UWORD8 au1_src_left_tmp[MAX_CTB_SIZE];
201
0
    WORD8 u1_sign_left, u1_sign_right;
202
0
    WORD32 bit_depth;
203
0
    UNUSED(pu1_src_top_right);
204
0
    UNUSED(pu1_src_bot_left);
205
0
    bit_depth = BIT_DEPTH_LUMA;
206
207
    /* Initialize the mask values */
208
0
    memset(au1_mask, 0xFF, MAX_CTB_SIZE);
209
210
    /* Update top and top-left arrays */
211
0
    *pu1_src_top_left = pu1_src_top[wd - 1];
212
0
    for(row = 0; row < ht; row++)
213
0
    {
214
0
        au1_src_left_tmp[row] = pu1_src[row * src_strd + wd - 1];
215
0
    }
216
0
    for(col = 0; col < wd; col++)
217
0
    {
218
0
        pu1_src_top[col] = pu1_src[(ht - 1) * src_strd + col];
219
0
    }
220
221
    /* Update masks based on the availability flags */
222
0
    if(0 == pu1_avail[0])
223
0
    {
224
0
        au1_mask[0] = 0;
225
0
    }
226
0
    if(0 == pu1_avail[1])
227
0
    {
228
0
        au1_mask[wd - 1] = 0;
229
0
    }
230
231
    /* Processing is done on the intermediate buffer and the output is written to the source buffer */
232
0
    {
233
0
        for(row = 0; row < ht; row++)
234
0
        {
235
0
            u1_sign_left = SIGN(pu1_src[0] - pu1_src_left[row]);
236
0
            for(col = 0; col < wd; col++)
237
0
            {
238
0
                WORD32 edge_idx;
239
240
0
                u1_sign_right = SIGN(pu1_src[col] - pu1_src[col + 1]);
241
0
                edge_idx = 2 + u1_sign_left + u1_sign_right;
242
0
                u1_sign_left = -u1_sign_right;
243
244
0
                edge_idx = gi4_ihevc_table_edge_idx[edge_idx] & au1_mask[col];
245
246
0
                if(0 != edge_idx)
247
0
                {
248
0
                    pu1_src[col] = CLIP3(pu1_src[col] + pi1_sao_offset[edge_idx], 0, (1 << bit_depth) - 1);
249
0
                }
250
0
            }
251
252
0
            pu1_src += src_strd;
253
0
        }
254
0
    }
255
256
    /* Update left array */
257
0
    for(row = 0; row < ht; row++)
258
0
    {
259
0
        pu1_src_left[row] = au1_src_left_tmp[row];
260
0
    }
261
262
0
}
263
264
265
266
267
/* input 'wd' has to be for the interleaved block and not for each color component */
268
void ihevc_sao_edge_offset_class0_chroma(UWORD8 *pu1_src,
269
                                         WORD32 src_strd,
270
                                         UWORD8 *pu1_src_left,
271
                                         UWORD8 *pu1_src_top,
272
                                         UWORD8 *pu1_src_top_left,
273
                                         UWORD8 *pu1_src_top_right,
274
                                         UWORD8 *pu1_src_bot_left,
275
                                         UWORD8 *pu1_avail,
276
                                         WORD8 *pi1_sao_offset_u,
277
                                         WORD8 *pi1_sao_offset_v,
278
                                         WORD32 wd,
279
                                         WORD32 ht)
280
0
{
281
0
    WORD32 row, col;
282
0
    UWORD8 au1_mask[MAX_CTB_SIZE];
283
0
    UWORD8 au1_src_left_tmp[2 * MAX_CTB_SIZE];
284
0
    WORD8 u1_sign_left_u, u1_sign_right_u;
285
0
    WORD8 u1_sign_left_v, u1_sign_right_v;
286
0
    WORD32 bit_depth;
287
0
    UNUSED(pu1_src_top_right);
288
0
    UNUSED(pu1_src_bot_left);
289
0
    bit_depth = BIT_DEPTH_CHROMA;
290
291
    /* Initialize the mask values */
292
0
    memset(au1_mask, 0xFF, MAX_CTB_SIZE);
293
294
    /* Update left, top and top-left arrays */
295
0
    pu1_src_top_left[0] = pu1_src_top[wd - 2];
296
0
    pu1_src_top_left[1] = pu1_src_top[wd - 1];
297
0
    for(row = 0; row < ht; row++)
298
0
    {
299
0
        au1_src_left_tmp[2 * row] = pu1_src[row * src_strd + wd - 2];
300
0
        au1_src_left_tmp[2 * row + 1] = pu1_src[row * src_strd + wd - 1];
301
0
    }
302
0
    for(col = 0; col < wd; col++)
303
0
    {
304
0
        pu1_src_top[col] = pu1_src[(ht - 1) * src_strd + col];
305
0
    }
306
307
    /* Update masks based on the availability flags */
308
0
    if(0 == pu1_avail[0])
309
0
    {
310
0
        au1_mask[0] = 0;
311
0
    }
312
0
    if(0 == pu1_avail[1])
313
0
    {
314
0
        au1_mask[(wd - 1) >> 1] = 0;
315
0
    }
316
317
    /* Processing is done on the intermediate buffer and the output is written to the source buffer */
318
0
    {
319
0
        for(row = 0; row < ht; row++)
320
0
        {
321
0
            u1_sign_left_u = SIGN(pu1_src[0] - pu1_src_left[2 * row]);
322
0
            u1_sign_left_v = SIGN(pu1_src[1] - pu1_src_left[2 * row + 1]);
323
0
            for(col = 0; col < wd; col++)
324
0
            {
325
0
                WORD32 edge_idx;
326
0
                WORD8 *pi1_sao_offset;
327
328
0
                if(0 == col % 2)
329
0
                {
330
0
                    pi1_sao_offset = pi1_sao_offset_u;
331
0
                    u1_sign_right_u = SIGN(pu1_src[col] - pu1_src[col + 2]);
332
0
                    edge_idx = 2 + u1_sign_left_u + u1_sign_right_u;
333
0
                    u1_sign_left_u = -u1_sign_right_u;
334
0
                }
335
0
                else
336
0
                {
337
0
                    pi1_sao_offset = pi1_sao_offset_v;
338
0
                    u1_sign_right_v = SIGN(pu1_src[col] - pu1_src[col + 2]);
339
0
                    edge_idx = 2 + u1_sign_left_v + u1_sign_right_v;
340
0
                    u1_sign_left_v = -u1_sign_right_v;
341
0
                }
342
343
0
                edge_idx = gi4_ihevc_table_edge_idx[edge_idx] & au1_mask[col >> 1];
344
345
0
                if(0 != edge_idx)
346
0
                {
347
0
                    pu1_src[col] = CLIP3(pu1_src[col] + pi1_sao_offset[edge_idx], 0, (1 << bit_depth) - 1);
348
0
                }
349
0
            }
350
351
0
            pu1_src += src_strd;
352
0
        }
353
0
    }
354
355
0
    for(row = 0; row < 2 * ht; row++)
356
0
    {
357
0
        pu1_src_left[row] = au1_src_left_tmp[row];
358
0
    }
359
360
0
}
361
362
363
364
/* Vertical filtering */
365
void ihevc_sao_edge_offset_class1(UWORD8 *pu1_src,
366
                                  WORD32 src_strd,
367
                                  UWORD8 *pu1_src_left,
368
                                  UWORD8 *pu1_src_top,
369
                                  UWORD8 *pu1_src_top_left,
370
                                  UWORD8 *pu1_src_top_right,
371
                                  UWORD8 *pu1_src_bot_left,
372
                                  UWORD8 *pu1_avail,
373
                                  WORD8 *pi1_sao_offset,
374
                                  WORD32 wd,
375
                                  WORD32 ht)
376
0
{
377
0
    WORD32 row, col;
378
0
    UWORD8 au1_mask[MAX_CTB_SIZE];
379
0
    UWORD8 au1_src_top_tmp[MAX_CTB_SIZE];
380
0
    WORD8 au1_sign_up[MAX_CTB_SIZE];
381
0
    WORD8 u1_sign_down;
382
0
    WORD32 bit_depth;
383
0
    UNUSED(pu1_src_top_right);
384
0
    UNUSED(pu1_src_bot_left);
385
386
0
    bit_depth = BIT_DEPTH_LUMA;
387
388
    /* Initialize the mask values */
389
0
    memset(au1_mask, 0xFF, MAX_CTB_SIZE);
390
391
    /* Update left, top and top-left arrays */
392
0
    *pu1_src_top_left = pu1_src_top[wd - 1];
393
0
    for(row = 0; row < ht; row++)
394
0
    {
395
0
        pu1_src_left[row] = pu1_src[row * src_strd + wd - 1];
396
0
    }
397
0
    for(col = 0; col < wd; col++)
398
0
    {
399
0
        au1_src_top_tmp[col] = pu1_src[(ht - 1) * src_strd + col];
400
0
    }
401
402
    /* Update height and source pointers based on the availability flags */
403
0
    if(0 == pu1_avail[2])
404
0
    {
405
0
        pu1_src += src_strd;
406
0
        ht--;
407
0
        for(col = 0; col < wd; col++)
408
0
        {
409
0
            au1_sign_up[col] = SIGN(pu1_src[col] - pu1_src[col - src_strd]);
410
0
        }
411
0
    }
412
0
    else
413
0
    {
414
0
        for(col = 0; col < wd; col++)
415
0
        {
416
0
            au1_sign_up[col] = SIGN(pu1_src[col] - pu1_src_top[col]);
417
0
        }
418
0
    }
419
0
    if(0 == pu1_avail[3])
420
0
    {
421
0
        ht--;
422
0
    }
423
424
    /* Processing is done on the intermediate buffer and the output is written to the source buffer */
425
0
    {
426
0
        for(row = 0; row < ht; row++)
427
0
        {
428
0
            for(col = 0; col < wd; col++)
429
0
            {
430
0
                WORD32 edge_idx;
431
432
0
                u1_sign_down = SIGN(pu1_src[col] - pu1_src[col + src_strd]);
433
0
                edge_idx = 2 + au1_sign_up[col] + u1_sign_down;
434
0
                au1_sign_up[col] = -u1_sign_down;
435
436
0
                edge_idx = gi4_ihevc_table_edge_idx[edge_idx] & au1_mask[col];
437
438
0
                if(0 != edge_idx)
439
0
                {
440
0
                    pu1_src[col] = CLIP3(pu1_src[col] + pi1_sao_offset[edge_idx], 0, (1 << bit_depth) - 1);
441
0
                }
442
0
            }
443
444
0
            pu1_src += src_strd;
445
0
        }
446
0
    }
447
448
0
    for(col = 0; col < wd; col++)
449
0
    {
450
0
        pu1_src_top[col] = au1_src_top_tmp[col];
451
0
    }
452
453
0
}
454
455
456
457
/* input 'wd' has to be for the interleaved block and not for each color component */
458
void ihevc_sao_edge_offset_class1_chroma(UWORD8 *pu1_src,
459
                                         WORD32 src_strd,
460
                                         UWORD8 *pu1_src_left,
461
                                         UWORD8 *pu1_src_top,
462
                                         UWORD8 *pu1_src_top_left,
463
                                         UWORD8 *pu1_src_top_right,
464
                                         UWORD8 *pu1_src_bot_left,
465
                                         UWORD8 *pu1_avail,
466
                                         WORD8 *pi1_sao_offset_u,
467
                                         WORD8 *pi1_sao_offset_v,
468
                                         WORD32 wd,
469
                                         WORD32 ht)
470
0
{
471
0
    WORD32 row, col;
472
0
    UWORD8 au1_mask[MAX_CTB_SIZE];
473
0
    UWORD8 au1_src_top_tmp[2 * MAX_CTB_SIZE];
474
0
    WORD8 au1_sign_up[2 * MAX_CTB_SIZE];
475
0
    WORD8 u1_sign_down;
476
0
    WORD32 bit_depth;
477
0
    UNUSED(pu1_src_top_right);
478
0
    UNUSED(pu1_src_bot_left);
479
480
0
    bit_depth = BIT_DEPTH_CHROMA;
481
482
    /* Initialize the mask values */
483
0
    memset(au1_mask, 0xFF, MAX_CTB_SIZE);
484
485
    /* Update left, top and top-left arrays */
486
0
    pu1_src_top_left[0] = pu1_src_top[wd - 2];
487
0
    pu1_src_top_left[1] = pu1_src_top[wd - 1];
488
0
    for(row = 0; row < ht; row++)
489
0
    {
490
0
        pu1_src_left[2 * row] = pu1_src[row * src_strd + wd - 2];
491
0
        pu1_src_left[2 * row + 1] = pu1_src[row * src_strd + wd - 1];
492
0
    }
493
0
    for(col = 0; col < wd; col++)
494
0
    {
495
0
        au1_src_top_tmp[col] = pu1_src[(ht - 1) * src_strd + col];
496
0
    }
497
498
    /* Update height and source pointers based on the availability flags */
499
0
    if(0 == pu1_avail[2])
500
0
    {
501
0
        pu1_src += src_strd;
502
0
        ht--;
503
0
        for(col = 0; col < wd; col++)
504
0
        {
505
0
            au1_sign_up[col] = SIGN(pu1_src[col] - pu1_src[col - src_strd]);
506
0
        }
507
0
    }
508
0
    else
509
0
    {
510
0
        for(col = 0; col < wd; col++)
511
0
        {
512
0
            au1_sign_up[col] = SIGN(pu1_src[col] - pu1_src_top[col]);
513
0
        }
514
0
    }
515
0
    if(0 == pu1_avail[3])
516
0
    {
517
0
        ht--;
518
0
    }
519
520
    /* Processing is done on the intermediate buffer and the output is written to the source buffer */
521
0
    {
522
0
        for(row = 0; row < ht; row++)
523
0
        {
524
0
            for(col = 0; col < wd; col++)
525
0
            {
526
0
                WORD32 edge_idx;
527
0
                WORD8 *pi1_sao_offset;
528
529
0
                pi1_sao_offset = (0 == col % 2) ? pi1_sao_offset_u : pi1_sao_offset_v;
530
531
0
                u1_sign_down = SIGN(pu1_src[col] - pu1_src[col + src_strd]);
532
0
                edge_idx = 2 + au1_sign_up[col] + u1_sign_down;
533
0
                au1_sign_up[col] = -u1_sign_down;
534
535
0
                edge_idx = gi4_ihevc_table_edge_idx[edge_idx] & au1_mask[col >> 1];
536
537
0
                if(0 != edge_idx)
538
0
                {
539
0
                    pu1_src[col] = CLIP3(pu1_src[col] + pi1_sao_offset[edge_idx], 0, (1 << bit_depth) - 1);
540
0
                }
541
0
            }
542
543
0
            pu1_src += src_strd;
544
0
        }
545
0
    }
546
547
0
    for(col = 0; col < wd; col++)
548
0
    {
549
0
        pu1_src_top[col] = au1_src_top_tmp[col];
550
0
    }
551
552
0
}
553
554
555
556
/* 135 degree filtering */
557
void ihevc_sao_edge_offset_class2(UWORD8 *pu1_src,
558
                                  WORD32 src_strd,
559
                                  UWORD8 *pu1_src_left,
560
                                  UWORD8 *pu1_src_top,
561
                                  UWORD8 *pu1_src_top_left,
562
                                  UWORD8 *pu1_src_top_right,
563
                                  UWORD8 *pu1_src_bot_left,
564
                                  UWORD8 *pu1_avail,
565
                                  WORD8 *pi1_sao_offset,
566
                                  WORD32 wd,
567
                                  WORD32 ht)
568
0
{
569
0
    WORD32 row, col;
570
0
    UWORD8 au1_mask[MAX_CTB_SIZE];
571
0
    UWORD8 au1_src_left_tmp[MAX_CTB_SIZE], au1_src_top_tmp[MAX_CTB_SIZE];
572
0
    UWORD8 u1_src_top_left_tmp;
573
0
    WORD8 au1_sign_up[MAX_CTB_SIZE + 1], au1_sign_up_tmp[MAX_CTB_SIZE + 1];
574
0
    WORD8 u1_sign_down;
575
0
    WORD8 *pu1_sign_up;
576
0
    WORD8 *pu1_sign_up_tmp;
577
0
    UWORD8 *pu1_src_left_cpy;
578
579
0
    WORD32 bit_depth;
580
0
    UWORD8 u1_pos_0_0_tmp;
581
0
    UWORD8 u1_pos_wd_ht_tmp;
582
0
    UNUSED(pu1_src_top_right);
583
0
    UNUSED(pu1_src_bot_left);
584
585
0
    bit_depth = BIT_DEPTH_LUMA;
586
0
    pu1_sign_up = au1_sign_up;
587
0
    pu1_sign_up_tmp = au1_sign_up_tmp;
588
0
    pu1_src_left_cpy = pu1_src_left;
589
590
    /* Initialize the mask values */
591
0
    memset(au1_mask, 0xFF, MAX_CTB_SIZE);
592
593
    /* Update left, top and top-left arrays */
594
0
    u1_src_top_left_tmp = pu1_src_top[wd - 1];
595
0
    for(row = 0; row < ht; row++)
596
0
    {
597
0
        au1_src_left_tmp[row] = pu1_src[row * src_strd + wd - 1];
598
0
    }
599
0
    for(col = 0; col < wd; col++)
600
0
    {
601
0
        au1_src_top_tmp[col] = pu1_src[(ht - 1) * src_strd + col];
602
0
    }
603
604
605
    /* If top-left is available, process separately */
606
0
    if(0 != pu1_avail[4])
607
0
    {
608
0
        WORD32 edge_idx;
609
610
0
        edge_idx = 2 + SIGN(pu1_src[0] - pu1_src_top_left[0]) +
611
0
                        SIGN(pu1_src[0] - pu1_src[1 + src_strd]);
612
613
0
        edge_idx = gi4_ihevc_table_edge_idx[edge_idx];
614
615
0
        if(0 != edge_idx)
616
0
        {
617
0
            u1_pos_0_0_tmp = CLIP3(pu1_src[0] + pi1_sao_offset[edge_idx], 0, (1 << bit_depth) - 1);
618
0
        }
619
0
        else
620
0
        {
621
0
            u1_pos_0_0_tmp = pu1_src[0];
622
0
        }
623
0
    }
624
0
    else
625
0
    {
626
0
        u1_pos_0_0_tmp = pu1_src[0];
627
0
    }
628
629
    /* If bottom-right is available, process separately */
630
0
    if(0 != pu1_avail[7])
631
0
    {
632
0
        WORD32 edge_idx;
633
634
0
        edge_idx = 2 + SIGN(pu1_src[wd - 1 + (ht - 1) * src_strd] - pu1_src[wd - 1 + (ht - 1) * src_strd - 1 - src_strd]) +
635
0
                        SIGN(pu1_src[wd - 1 + (ht - 1) * src_strd] - pu1_src[wd - 1 + (ht - 1) * src_strd + 1 + src_strd]);
636
637
0
        edge_idx = gi4_ihevc_table_edge_idx[edge_idx];
638
639
0
        if(0 != edge_idx)
640
0
        {
641
0
            u1_pos_wd_ht_tmp = CLIP3(pu1_src[wd - 1 + (ht - 1) * src_strd] + pi1_sao_offset[edge_idx], 0, (1 << bit_depth) - 1);
642
0
        }
643
0
        else
644
0
        {
645
0
            u1_pos_wd_ht_tmp = pu1_src[wd - 1 + (ht - 1) * src_strd];
646
0
        }
647
0
    }
648
0
    else
649
0
    {
650
0
        u1_pos_wd_ht_tmp = pu1_src[wd - 1 + (ht - 1) * src_strd];
651
0
    }
652
653
    /* If Left is not available */
654
0
    if(0 == pu1_avail[0])
655
0
    {
656
0
        au1_mask[0] = 0;
657
0
    }
658
659
    /* If Top is not available */
660
0
    if(0 == pu1_avail[2])
661
0
    {
662
0
        pu1_src += src_strd;
663
0
        ht--;
664
0
        pu1_src_left_cpy += 1;
665
0
        for(col = 1; col < wd; col++)
666
0
        {
667
0
            pu1_sign_up[col] = SIGN(pu1_src[col] - pu1_src[col - 1 - src_strd]);
668
0
        }
669
0
    }
670
0
    else
671
0
    {
672
0
        for(col = 1; col < wd; col++)
673
0
        {
674
0
            pu1_sign_up[col] = SIGN(pu1_src[col] - pu1_src_top[col - 1]);
675
0
        }
676
0
    }
677
678
    /* If Right is not available */
679
0
    if(0 == pu1_avail[1])
680
0
    {
681
0
        au1_mask[wd - 1] = 0;
682
0
    }
683
684
    /* If Bottom is not available */
685
0
    if(0 == pu1_avail[3])
686
0
    {
687
0
        ht--;
688
0
    }
689
690
    /* Processing is done on the intermediate buffer and the output is written to the source buffer */
691
0
    {
692
0
        for(row = 0; row < ht; row++)
693
0
        {
694
0
            pu1_sign_up[0] = SIGN(pu1_src[0] - pu1_src_left_cpy[row - 1]);
695
0
            for(col = 0; col < wd; col++)
696
0
            {
697
0
                WORD32 edge_idx;
698
699
0
                u1_sign_down = SIGN(pu1_src[col] - pu1_src[col + 1 + src_strd]);
700
0
                edge_idx = 2 + pu1_sign_up[col] + u1_sign_down;
701
0
                pu1_sign_up_tmp[col + 1] = -u1_sign_down;
702
703
0
                edge_idx = gi4_ihevc_table_edge_idx[edge_idx] & au1_mask[col];
704
705
0
                if(0 != edge_idx)
706
0
                {
707
0
                    pu1_src[col] = CLIP3(pu1_src[col] + pi1_sao_offset[edge_idx], 0, (1 << bit_depth) - 1);
708
0
                }
709
0
            }
710
711
            /* Swapping pu1_sign_up_tmp and pu1_sign_up */
712
0
            {
713
0
                WORD8 *pu1_swap_tmp = pu1_sign_up;
714
0
                pu1_sign_up = pu1_sign_up_tmp;
715
0
                pu1_sign_up_tmp = pu1_swap_tmp;
716
0
            }
717
718
0
            pu1_src += src_strd;
719
0
        }
720
721
0
        pu1_src[-(pu1_avail[2] ? ht : ht + 1) * src_strd] = u1_pos_0_0_tmp;
722
0
        pu1_src[(pu1_avail[3] ? wd - 1 - src_strd : wd - 1)] = u1_pos_wd_ht_tmp;
723
0
    }
724
725
0
    if(0 == pu1_avail[2])
726
0
        ht++;
727
0
    if(0 == pu1_avail[3])
728
0
        ht++;
729
0
    *pu1_src_top_left = u1_src_top_left_tmp;
730
0
    for(row = 0; row < ht; row++)
731
0
    {
732
0
        pu1_src_left[row] = au1_src_left_tmp[row];
733
0
    }
734
0
    for(col = 0; col < wd; col++)
735
0
    {
736
0
        pu1_src_top[col] = au1_src_top_tmp[col];
737
0
    }
738
739
0
}
740
741
742
743
744
/* 135 degree filtering */
745
void ihevc_sao_edge_offset_class2_chroma(UWORD8 *pu1_src,
746
                                         WORD32 src_strd,
747
                                         UWORD8 *pu1_src_left,
748
                                         UWORD8 *pu1_src_top,
749
                                         UWORD8 *pu1_src_top_left,
750
                                         UWORD8 *pu1_src_top_right,
751
                                         UWORD8 *pu1_src_bot_left,
752
                                         UWORD8 *pu1_avail,
753
                                         WORD8 *pi1_sao_offset_u,
754
                                         WORD8 *pi1_sao_offset_v,
755
                                         WORD32 wd,
756
                                         WORD32 ht)
757
0
{
758
0
    WORD32 row, col;
759
0
    UWORD8 au1_mask[MAX_CTB_SIZE];
760
0
    UWORD8 au1_src_left_tmp[2 * MAX_CTB_SIZE], au1_src_top_tmp[2 * MAX_CTB_SIZE];
761
0
    UWORD8 au1_src_top_left_tmp[2];
762
0
    WORD8 au1_sign_up[2 * MAX_CTB_SIZE + 2], au1_sign_up_tmp[2 * MAX_CTB_SIZE + 2];
763
0
    WORD8 u1_sign_down;
764
0
    WORD8 *pu1_sign_up;
765
0
    WORD8 *pu1_sign_up_tmp;
766
0
    UWORD8 *pu1_src_left_cpy;
767
768
0
    WORD32 bit_depth;
769
770
0
    UWORD8 u1_pos_0_0_tmp_u;
771
0
    UWORD8 u1_pos_0_0_tmp_v;
772
0
    UWORD8 u1_pos_wd_ht_tmp_u;
773
0
    UWORD8 u1_pos_wd_ht_tmp_v;
774
0
    UNUSED(pu1_src_top_right);
775
0
    UNUSED(pu1_src_bot_left);
776
777
778
0
    bit_depth = BIT_DEPTH_CHROMA;
779
0
    pu1_sign_up = au1_sign_up;
780
0
    pu1_sign_up_tmp = au1_sign_up_tmp;
781
0
    pu1_src_left_cpy = pu1_src_left;
782
783
    /* Initialize the mask values */
784
0
    memset(au1_mask, 0xFF, MAX_CTB_SIZE);
785
786
    /* Update left, top and top-left arrays */
787
0
    au1_src_top_left_tmp[0] = pu1_src_top[wd - 2];
788
0
    au1_src_top_left_tmp[1] = pu1_src_top[wd - 1];
789
0
    for(row = 0; row < ht; row++)
790
0
    {
791
0
        au1_src_left_tmp[2 * row] = pu1_src[row * src_strd + wd - 2];
792
0
        au1_src_left_tmp[2 * row + 1] = pu1_src[row * src_strd + wd - 1];
793
0
    }
794
0
    for(col = 0; col < wd; col++)
795
0
    {
796
0
        au1_src_top_tmp[col] = pu1_src[(ht - 1) * src_strd + col];
797
0
    }
798
799
800
    /* If top-left is available, process separately */
801
0
    if(0 != pu1_avail[4])
802
0
    {
803
0
        WORD32 edge_idx;
804
805
        /* U */
806
0
        edge_idx = 2 + SIGN(pu1_src[0] - pu1_src_top_left[0]) +
807
0
                        SIGN(pu1_src[0] - pu1_src[2 + src_strd]);
808
809
0
        edge_idx = gi4_ihevc_table_edge_idx[edge_idx];
810
811
0
        if(0 != edge_idx)
812
0
        {
813
0
            u1_pos_0_0_tmp_u = CLIP3(pu1_src[0] + pi1_sao_offset_u[edge_idx], 0, (1 << bit_depth) - 1);
814
0
        }
815
0
        else
816
0
        {
817
0
            u1_pos_0_0_tmp_u = pu1_src[0];
818
0
        }
819
820
        /* V */
821
0
        edge_idx = 2 + SIGN(pu1_src[1] - pu1_src_top_left[1]) +
822
0
                        SIGN(pu1_src[1] - pu1_src[1 + 2 + src_strd]);
823
824
0
        edge_idx = gi4_ihevc_table_edge_idx[edge_idx];
825
826
0
        if(0 != edge_idx)
827
0
        {
828
0
            u1_pos_0_0_tmp_v = CLIP3(pu1_src[1] + pi1_sao_offset_v[edge_idx], 0, (1 << bit_depth) - 1);
829
0
        }
830
0
        else
831
0
        {
832
0
            u1_pos_0_0_tmp_v = pu1_src[1];
833
0
        }
834
0
    }
835
0
    else
836
0
    {
837
0
        u1_pos_0_0_tmp_u = pu1_src[0];
838
0
        u1_pos_0_0_tmp_v = pu1_src[1];
839
0
    }
840
841
    /* If bottom-right is available, process separately */
842
0
    if(0 != pu1_avail[7])
843
0
    {
844
0
        WORD32 edge_idx;
845
846
        /* U */
847
0
        edge_idx = 2 + SIGN(pu1_src[wd - 2 + (ht - 1) * src_strd] - pu1_src[wd - 2 + (ht - 1) * src_strd - 2 - src_strd]) +
848
0
                        SIGN(pu1_src[wd - 2 + (ht - 1) * src_strd] - pu1_src[wd - 2 + (ht - 1) * src_strd + 2 + src_strd]);
849
850
0
        edge_idx = gi4_ihevc_table_edge_idx[edge_idx];
851
852
0
        if(0 != edge_idx)
853
0
        {
854
0
            u1_pos_wd_ht_tmp_u = CLIP3(pu1_src[wd - 2 + (ht - 1) * src_strd] + pi1_sao_offset_u[edge_idx], 0, (1 << bit_depth) - 1);
855
0
        }
856
0
        else
857
0
        {
858
0
            u1_pos_wd_ht_tmp_u = pu1_src[wd - 2 + (ht - 1) * src_strd];
859
0
        }
860
861
        /* V */
862
0
        edge_idx = 2 + SIGN(pu1_src[wd - 1 + (ht - 1) * src_strd] - pu1_src[wd - 1 + (ht - 1) * src_strd - 2 - src_strd]) +
863
0
                        SIGN(pu1_src[wd - 1 + (ht - 1) * src_strd] - pu1_src[wd - 1 + (ht - 1) * src_strd + 2 + src_strd]);
864
865
0
        edge_idx = gi4_ihevc_table_edge_idx[edge_idx];
866
867
0
        if(0 != edge_idx)
868
0
        {
869
0
            u1_pos_wd_ht_tmp_v = CLIP3(pu1_src[wd - 1 + (ht - 1) * src_strd] + pi1_sao_offset_v[edge_idx], 0, (1 << bit_depth) - 1);
870
0
        }
871
0
        else
872
0
        {
873
0
            u1_pos_wd_ht_tmp_v = pu1_src[wd - 1 + (ht - 1) * src_strd];
874
0
        }
875
0
    }
876
0
    else
877
0
    {
878
0
        u1_pos_wd_ht_tmp_u = pu1_src[wd - 2 + (ht - 1) * src_strd];
879
0
        u1_pos_wd_ht_tmp_v = pu1_src[wd - 1 + (ht - 1) * src_strd];
880
0
    }
881
882
    /* If Left is not available */
883
0
    if(0 == pu1_avail[0])
884
0
    {
885
0
        au1_mask[0] = 0;
886
0
    }
887
888
    /* If Top is not available */
889
0
    if(0 == pu1_avail[2])
890
0
    {
891
0
        pu1_src += src_strd;
892
0
        pu1_src_left_cpy += 2;
893
0
        ht--;
894
0
        for(col = 2; col < wd; col++)
895
0
        {
896
0
            pu1_sign_up[col] = SIGN(pu1_src[col] - pu1_src[col - 2 - src_strd]);
897
0
        }
898
0
    }
899
0
    else
900
0
    {
901
0
        for(col = 2; col < wd; col++)
902
0
        {
903
0
            pu1_sign_up[col] = SIGN(pu1_src[col] - pu1_src_top[col - 2]);
904
0
        }
905
0
    }
906
907
    /* If Right is not available */
908
0
    if(0 == pu1_avail[1])
909
0
    {
910
0
        au1_mask[(wd - 1) >> 1] = 0;
911
0
    }
912
913
    /* If Bottom is not available */
914
0
    if(0 == pu1_avail[3])
915
0
    {
916
0
        ht--;
917
0
    }
918
919
    /* Processing is done on the intermediate buffer and the output is written to the source buffer */
920
0
    {
921
0
        for(row = 0; row < ht; row++)
922
0
        {
923
0
            pu1_sign_up[0] = SIGN(pu1_src[0] - pu1_src_left_cpy[2 * (row - 1)]);
924
0
            pu1_sign_up[1] = SIGN(pu1_src[1] - pu1_src_left_cpy[2 * (row - 1) + 1]);
925
0
            for(col = 0; col < wd; col++)
926
0
            {
927
0
                WORD32 edge_idx;
928
0
                WORD8 *pi1_sao_offset;
929
930
0
                pi1_sao_offset = (0 == col % 2) ? pi1_sao_offset_u : pi1_sao_offset_v;
931
932
0
                u1_sign_down = SIGN(pu1_src[col] - pu1_src[col + 2 + src_strd]);
933
0
                edge_idx = 2 + pu1_sign_up[col] + u1_sign_down;
934
0
                pu1_sign_up_tmp[col + 2] = -u1_sign_down;
935
936
0
                edge_idx = gi4_ihevc_table_edge_idx[edge_idx] & au1_mask[col >> 1];
937
938
0
                if(0 != edge_idx)
939
0
                {
940
0
                    pu1_src[col] = CLIP3(pu1_src[col] + pi1_sao_offset[edge_idx], 0, (1 << bit_depth) - 1);
941
0
                }
942
0
            }
943
944
            /* Swapping pu1_sign_up_tmp and pu1_sign_up */
945
0
            {
946
0
                WORD8 *pu1_swap_tmp = pu1_sign_up;
947
0
                pu1_sign_up = pu1_sign_up_tmp;
948
0
                pu1_sign_up_tmp = pu1_swap_tmp;
949
0
            }
950
951
0
            pu1_src += src_strd;
952
0
        }
953
954
0
        pu1_src[-(pu1_avail[2] ? ht : ht + 1) * src_strd] = u1_pos_0_0_tmp_u;
955
0
        pu1_src[-(pu1_avail[2] ? ht : ht + 1) * src_strd + 1] = u1_pos_0_0_tmp_v;
956
0
        pu1_src[(pu1_avail[3] ? wd - 2 - src_strd : wd - 2)] = u1_pos_wd_ht_tmp_u;
957
0
        pu1_src[(pu1_avail[3] ? wd - 1 - src_strd : wd - 1)] = u1_pos_wd_ht_tmp_v;
958
0
    }
959
960
0
    if(0 == pu1_avail[2])
961
0
        ht++;
962
0
    if(0 == pu1_avail[3])
963
0
        ht++;
964
0
    pu1_src_top_left[0] = au1_src_top_left_tmp[0];
965
0
    pu1_src_top_left[1] = au1_src_top_left_tmp[1];
966
0
    for(row = 0; row < 2 * ht; row++)
967
0
    {
968
0
        pu1_src_left[row] = au1_src_left_tmp[row];
969
0
    }
970
0
    for(col = 0; col < wd; col++)
971
0
    {
972
0
        pu1_src_top[col] = au1_src_top_tmp[col];
973
0
    }
974
975
0
}
976
977
978
979
980
/* 45 degree filtering */
981
void ihevc_sao_edge_offset_class3(UWORD8 *pu1_src,
982
                                  WORD32 src_strd,
983
                                  UWORD8 *pu1_src_left,
984
                                  UWORD8 *pu1_src_top,
985
                                  UWORD8 *pu1_src_top_left,
986
                                  UWORD8 *pu1_src_top_right,
987
                                  UWORD8 *pu1_src_bot_left,
988
                                  UWORD8 *pu1_avail,
989
                                  WORD8 *pi1_sao_offset,
990
                                  WORD32 wd,
991
                                  WORD32 ht)
992
0
{
993
0
    WORD32 row, col;
994
0
    UWORD8 au1_mask[MAX_CTB_SIZE];
995
0
    UWORD8 au1_src_top_tmp[MAX_CTB_SIZE];
996
0
    UWORD8 au1_src_left_tmp[MAX_CTB_SIZE];
997
0
    UWORD8 u1_src_top_left_tmp;
998
0
    WORD8 au1_sign_up[MAX_CTB_SIZE];
999
0
    UWORD8 *pu1_src_left_cpy;
1000
0
    WORD8 u1_sign_down;
1001
0
    WORD32 bit_depth;
1002
1003
0
    UWORD8 u1_pos_0_ht_tmp;
1004
0
    UWORD8 u1_pos_wd_0_tmp;
1005
1006
0
    bit_depth = BIT_DEPTH_LUMA;
1007
0
    pu1_src_left_cpy = pu1_src_left;
1008
1009
    /* Initialize the mask values */
1010
0
    memset(au1_mask, 0xFF, MAX_CTB_SIZE);
1011
1012
    /* Update left, top and top-left arrays */
1013
0
    u1_src_top_left_tmp = pu1_src_top[wd - 1];
1014
0
    for(row = 0; row < ht; row++)
1015
0
    {
1016
0
        au1_src_left_tmp[row] = pu1_src[row * src_strd + wd - 1];
1017
0
    }
1018
0
    for(col = 0; col < wd; col++)
1019
0
    {
1020
0
        au1_src_top_tmp[col] = pu1_src[(ht - 1) * src_strd + col];
1021
0
    }
1022
1023
    /* If top-right is available, process separately */
1024
0
    if(0 != pu1_avail[5])
1025
0
    {
1026
0
        WORD32 edge_idx;
1027
1028
0
        edge_idx = 2 + SIGN(pu1_src[wd - 1] - pu1_src_top_right[0]) +
1029
0
                        SIGN(pu1_src[wd - 1] - pu1_src[wd - 1 - 1 + src_strd]);
1030
1031
0
        edge_idx = gi4_ihevc_table_edge_idx[edge_idx];
1032
1033
0
        if(0 != edge_idx)
1034
0
        {
1035
0
            u1_pos_wd_0_tmp = CLIP3(pu1_src[wd - 1] + pi1_sao_offset[edge_idx], 0, (1 << bit_depth) - 1);
1036
0
        }
1037
0
        else
1038
0
        {
1039
0
            u1_pos_wd_0_tmp = pu1_src[wd - 1];
1040
0
        }
1041
0
    }
1042
0
    else
1043
0
    {
1044
0
        u1_pos_wd_0_tmp = pu1_src[wd - 1];
1045
0
    }
1046
1047
    /* If bottom-left is available, process separately */
1048
0
    if(0 != pu1_avail[6])
1049
0
    {
1050
0
        WORD32 edge_idx;
1051
1052
0
        edge_idx = 2 + SIGN(pu1_src[(ht - 1) * src_strd] - pu1_src[(ht - 1) * src_strd + 1 - src_strd]) +
1053
0
                        SIGN(pu1_src[(ht - 1) * src_strd] - pu1_src_bot_left[0]);
1054
1055
0
        edge_idx = gi4_ihevc_table_edge_idx[edge_idx];
1056
1057
0
        if(0 != edge_idx)
1058
0
        {
1059
0
            u1_pos_0_ht_tmp = CLIP3(pu1_src[(ht - 1) * src_strd] + pi1_sao_offset[edge_idx], 0, (1 << bit_depth) - 1);
1060
0
        }
1061
0
        else
1062
0
        {
1063
0
            u1_pos_0_ht_tmp = pu1_src[(ht - 1) * src_strd];
1064
0
        }
1065
0
    }
1066
0
    else
1067
0
    {
1068
0
        u1_pos_0_ht_tmp = pu1_src[(ht - 1) * src_strd];
1069
0
    }
1070
1071
    /* If Left is not available */
1072
0
    if(0 == pu1_avail[0])
1073
0
    {
1074
0
        au1_mask[0] = 0;
1075
0
    }
1076
1077
    /* If Top is not available */
1078
0
    if(0 == pu1_avail[2])
1079
0
    {
1080
0
        pu1_src += src_strd;
1081
0
        ht--;
1082
0
        pu1_src_left_cpy += 1;
1083
0
        for(col = 0; col < wd - 1; col++)
1084
0
        {
1085
0
            au1_sign_up[col] = SIGN(pu1_src[col] - pu1_src[col + 1 - src_strd]);
1086
0
        }
1087
0
    }
1088
0
    else
1089
0
    {
1090
0
        for(col = 0; col < wd - 1; col++)
1091
0
        {
1092
0
            au1_sign_up[col] = SIGN(pu1_src[col] - pu1_src_top[col + 1]);
1093
0
        }
1094
0
    }
1095
1096
    /* If Right is not available */
1097
0
    if(0 == pu1_avail[1])
1098
0
    {
1099
0
        au1_mask[wd - 1] = 0;
1100
0
    }
1101
1102
    /* If Bottom is not available */
1103
0
    if(0 == pu1_avail[3])
1104
0
    {
1105
0
        ht--;
1106
0
    }
1107
1108
    /* Processing is done on the intermediate buffer and the output is written to the source buffer */
1109
0
    {
1110
0
        for(row = 0; row < ht; row++)
1111
0
        {
1112
0
            au1_sign_up[wd - 1] = SIGN(pu1_src[wd - 1] - pu1_src[wd - 1 + 1 - src_strd]);
1113
0
            for(col = 0; col < wd; col++)
1114
0
            {
1115
0
                WORD32 edge_idx;
1116
1117
0
                u1_sign_down = SIGN(pu1_src[col] - ((col == 0) ? pu1_src_left_cpy[row + 1] :
1118
0
                                                                 pu1_src[col - 1 + src_strd]));
1119
0
                edge_idx = 2 + au1_sign_up[col] + u1_sign_down;
1120
0
                if(col > 0)
1121
0
                    au1_sign_up[col - 1] = -u1_sign_down;
1122
1123
0
                edge_idx = gi4_ihevc_table_edge_idx[edge_idx] & au1_mask[col];
1124
1125
0
                if(0 != edge_idx)
1126
0
                {
1127
0
                    pu1_src[col] = CLIP3(pu1_src[col] + pi1_sao_offset[edge_idx], 0, (1 << bit_depth) - 1);
1128
0
                }
1129
0
            }
1130
1131
0
            pu1_src += src_strd;
1132
0
        }
1133
1134
0
        pu1_src[-(pu1_avail[2] ? ht : ht + 1) * src_strd + wd - 1] = u1_pos_wd_0_tmp;
1135
0
        pu1_src[(pu1_avail[3] ?  (-src_strd) : 0)] = u1_pos_0_ht_tmp;
1136
0
    }
1137
1138
0
    if(0 == pu1_avail[2])
1139
0
        ht++;
1140
0
    if(0 == pu1_avail[3])
1141
0
        ht++;
1142
0
    *pu1_src_top_left = u1_src_top_left_tmp;
1143
0
    for(row = 0; row < ht; row++)
1144
0
    {
1145
0
        pu1_src_left[row] = au1_src_left_tmp[row];
1146
0
    }
1147
0
    for(col = 0; col < wd; col++)
1148
0
    {
1149
0
        pu1_src_top[col] = au1_src_top_tmp[col];
1150
0
    }
1151
1152
0
}
1153
1154
1155
1156
1157
void ihevc_sao_edge_offset_class3_chroma(UWORD8 *pu1_src,
1158
                                         WORD32 src_strd,
1159
                                         UWORD8 *pu1_src_left,
1160
                                         UWORD8 *pu1_src_top,
1161
                                         UWORD8 *pu1_src_top_left,
1162
                                         UWORD8 *pu1_src_top_right,
1163
                                         UWORD8 *pu1_src_bot_left,
1164
                                         UWORD8 *pu1_avail,
1165
                                         WORD8 *pi1_sao_offset_u,
1166
                                         WORD8 *pi1_sao_offset_v,
1167
                                         WORD32 wd,
1168
                                         WORD32 ht)
1169
0
{
1170
0
    WORD32 row, col;
1171
0
    UWORD8 au1_mask[MAX_CTB_SIZE];
1172
0
    UWORD8 au1_src_left_tmp[2 * MAX_CTB_SIZE], au1_src_top_tmp[2 * MAX_CTB_SIZE];
1173
0
    UWORD8 au1_src_top_left_tmp[2];
1174
0
    WORD8 au1_sign_up[2 * MAX_CTB_SIZE];
1175
0
    UWORD8 *pu1_src_left_cpy;
1176
0
    WORD8 u1_sign_down;
1177
0
    WORD32 bit_depth;
1178
1179
0
    UWORD8 u1_pos_wd_0_tmp_u;
1180
0
    UWORD8 u1_pos_wd_0_tmp_v;
1181
0
    UWORD8 u1_pos_0_ht_tmp_u;
1182
0
    UWORD8 u1_pos_0_ht_tmp_v;
1183
1184
0
    bit_depth = BIT_DEPTH_CHROMA;
1185
0
    pu1_src_left_cpy = pu1_src_left;
1186
1187
    /* Initialize the mask values */
1188
0
    memset(au1_mask, 0xFF, MAX_CTB_SIZE);
1189
1190
    /* Update left, top and top-left arrays */
1191
0
    au1_src_top_left_tmp[0] = pu1_src_top[wd - 2];
1192
0
    au1_src_top_left_tmp[1] = pu1_src_top[wd - 1];
1193
0
    for(row = 0; row < ht; row++)
1194
0
    {
1195
0
        au1_src_left_tmp[2 * row] = pu1_src[row * src_strd + wd - 2];
1196
0
        au1_src_left_tmp[2 * row + 1] = pu1_src[row * src_strd + wd - 1];
1197
0
    }
1198
0
    for(col = 0; col < wd; col++)
1199
0
    {
1200
0
        au1_src_top_tmp[col] = pu1_src[(ht - 1) * src_strd + col];
1201
0
    }
1202
1203
1204
    /* If top-right is available, process separately */
1205
0
    if(0 != pu1_avail[5])
1206
0
    {
1207
0
        WORD32 edge_idx;
1208
1209
        /* U */
1210
0
        edge_idx = 2 + SIGN(pu1_src[wd - 2] - pu1_src_top_right[0]) +
1211
0
                        SIGN(pu1_src[wd - 2] - pu1_src[wd - 2 - 2 + src_strd]);
1212
1213
0
        edge_idx = gi4_ihevc_table_edge_idx[edge_idx];
1214
1215
0
        if(0 != edge_idx)
1216
0
        {
1217
0
            u1_pos_wd_0_tmp_u = CLIP3(pu1_src[wd - 2] + pi1_sao_offset_u[edge_idx], 0, (1 << bit_depth) - 1);
1218
0
        }
1219
0
        else
1220
0
        {
1221
0
            u1_pos_wd_0_tmp_u = pu1_src[wd - 2];
1222
0
        }
1223
1224
        /* V */
1225
0
        edge_idx = 2 + SIGN(pu1_src[wd - 1] - pu1_src_top_right[1]) +
1226
0
                        SIGN(pu1_src[wd - 1] - pu1_src[wd - 1 - 2 + src_strd]);
1227
1228
0
        edge_idx = gi4_ihevc_table_edge_idx[edge_idx];
1229
1230
0
        if(0 != edge_idx)
1231
0
        {
1232
0
            u1_pos_wd_0_tmp_v = CLIP3(pu1_src[wd - 1] + pi1_sao_offset_v[edge_idx], 0, (1 << bit_depth) - 1);
1233
0
        }
1234
0
        else
1235
0
        {
1236
0
            u1_pos_wd_0_tmp_v = pu1_src[wd - 1];
1237
0
        }
1238
0
    }
1239
0
    else
1240
0
    {
1241
0
        u1_pos_wd_0_tmp_u = pu1_src[wd - 2];
1242
0
        u1_pos_wd_0_tmp_v = pu1_src[wd - 1];
1243
0
    }
1244
1245
    /* If bottom-left is available, process separately */
1246
0
    if(0 != pu1_avail[6])
1247
0
    {
1248
0
        WORD32 edge_idx;
1249
1250
        /* U */
1251
0
        edge_idx = 2 + SIGN(pu1_src[(ht - 1) * src_strd] - pu1_src[(ht - 1) * src_strd + 2 - src_strd]) +
1252
0
                        SIGN(pu1_src[(ht - 1) * src_strd] - pu1_src_bot_left[0]);
1253
1254
0
        edge_idx = gi4_ihevc_table_edge_idx[edge_idx];
1255
1256
0
        if(0 != edge_idx)
1257
0
        {
1258
0
            u1_pos_0_ht_tmp_u = CLIP3(pu1_src[(ht - 1) * src_strd] + pi1_sao_offset_u[edge_idx], 0, (1 << bit_depth) - 1);
1259
0
        }
1260
0
        else
1261
0
        {
1262
0
            u1_pos_0_ht_tmp_u = pu1_src[(ht - 1) * src_strd];
1263
0
        }
1264
1265
        /* V */
1266
0
        edge_idx = 2 + SIGN(pu1_src[(ht - 1) * src_strd + 1] - pu1_src[(ht - 1) * src_strd + 1 + 2 - src_strd]) +
1267
0
                        SIGN(pu1_src[(ht - 1) * src_strd + 1] - pu1_src_bot_left[1]);
1268
1269
0
        edge_idx = gi4_ihevc_table_edge_idx[edge_idx];
1270
1271
0
        if(0 != edge_idx)
1272
0
        {
1273
0
            u1_pos_0_ht_tmp_v = CLIP3(pu1_src[(ht - 1) * src_strd + 1] + pi1_sao_offset_v[edge_idx], 0, (1 << bit_depth) - 1);
1274
0
        }
1275
0
        else
1276
0
        {
1277
0
            u1_pos_0_ht_tmp_v = pu1_src[(ht - 1) * src_strd + 1];
1278
0
        }
1279
0
    }
1280
0
    else
1281
0
    {
1282
0
        u1_pos_0_ht_tmp_u = pu1_src[(ht - 1) * src_strd];
1283
0
        u1_pos_0_ht_tmp_v = pu1_src[(ht - 1) * src_strd + 1];
1284
0
    }
1285
1286
    /* If Left is not available */
1287
0
    if(0 == pu1_avail[0])
1288
0
    {
1289
0
        au1_mask[0] = 0;
1290
0
    }
1291
1292
    /* If Top is not available */
1293
0
    if(0 == pu1_avail[2])
1294
0
    {
1295
0
        pu1_src += src_strd;
1296
0
        ht--;
1297
0
        pu1_src_left_cpy += 2;
1298
0
        for(col = 0; col < wd - 2; col++)
1299
0
        {
1300
0
            au1_sign_up[col] = SIGN(pu1_src[col] - pu1_src[col + 2 - src_strd]);
1301
0
        }
1302
0
    }
1303
0
    else
1304
0
    {
1305
0
        for(col = 0; col < wd - 2; col++)
1306
0
        {
1307
0
            au1_sign_up[col] = SIGN(pu1_src[col] - pu1_src_top[col + 2]);
1308
0
        }
1309
0
    }
1310
1311
    /* If Right is not available */
1312
0
    if(0 == pu1_avail[1])
1313
0
    {
1314
0
        au1_mask[(wd - 1) >> 1] = 0;
1315
0
    }
1316
1317
    /* If Bottom is not available */
1318
0
    if(0 == pu1_avail[3])
1319
0
    {
1320
0
        ht--;
1321
0
    }
1322
1323
    /* Processing is done on the intermediate buffer and the output is written to the source buffer */
1324
0
    {
1325
0
        for(row = 0; row < ht; row++)
1326
0
        {
1327
0
            au1_sign_up[wd - 2] = SIGN(pu1_src[wd - 2] - pu1_src[wd - 2 + 2 - src_strd]);
1328
0
            au1_sign_up[wd - 1] = SIGN(pu1_src[wd - 1] - pu1_src[wd - 1 + 2 - src_strd]);
1329
0
            for(col = 0; col < wd; col++)
1330
0
            {
1331
0
                WORD32 edge_idx;
1332
0
                WORD8 *pi1_sao_offset;
1333
1334
0
                pi1_sao_offset = (0 == col % 2) ? pi1_sao_offset_u : pi1_sao_offset_v;
1335
1336
0
                u1_sign_down = SIGN(pu1_src[col] - ((col < 2) ? pu1_src_left_cpy[2 * (row + 1) + col] :
1337
0
                                                                pu1_src[col - 2 + src_strd]));
1338
0
                edge_idx = 2 + au1_sign_up[col] + u1_sign_down;
1339
0
                if(col > 1)
1340
0
                    au1_sign_up[col - 2] = -u1_sign_down;
1341
1342
0
                edge_idx = gi4_ihevc_table_edge_idx[edge_idx] & au1_mask[col >> 1];
1343
1344
0
                if(0 != edge_idx)
1345
0
                {
1346
0
                    pu1_src[col] = CLIP3(pu1_src[col] + pi1_sao_offset[edge_idx], 0, (1 << bit_depth) - 1);
1347
0
                }
1348
0
            }
1349
1350
0
            pu1_src += src_strd;
1351
0
        }
1352
1353
0
        pu1_src[-(pu1_avail[2] ? ht : ht + 1) * src_strd + wd - 2] = u1_pos_wd_0_tmp_u;
1354
0
        pu1_src[-(pu1_avail[2] ? ht : ht + 1) * src_strd + wd - 1] = u1_pos_wd_0_tmp_v;
1355
0
        pu1_src[(pu1_avail[3] ?  (-src_strd) : 0)] = u1_pos_0_ht_tmp_u;
1356
0
        pu1_src[(pu1_avail[3] ?  (-src_strd) : 0) + 1] = u1_pos_0_ht_tmp_v;
1357
0
    }
1358
1359
0
    if(0 == pu1_avail[2])
1360
0
        ht++;
1361
0
    if(0 == pu1_avail[3])
1362
0
        ht++;
1363
0
    pu1_src_top_left[0] = au1_src_top_left_tmp[0];
1364
0
    pu1_src_top_left[1] = au1_src_top_left_tmp[1];
1365
0
    for(row = 0; row < 2 * ht; row++)
1366
0
    {
1367
0
        pu1_src_left[row] = au1_src_left_tmp[row];
1368
0
    }
1369
0
    for(col = 0; col < wd; col++)
1370
0
    {
1371
0
        pu1_src_top[col] = au1_src_top_tmp[col];
1372
0
    }
1373
1374
0
}