Coverage Report

Created: 2026-07-16 06:55

next uncovered line (L), next uncovered region (R), next uncovered branch (B)
/src/aac/libDRCdec/src/drcGainDec_preprocess.cpp
Line
Count
Source
1
/* -----------------------------------------------------------------------------
2
Software License for The Fraunhofer FDK AAC Codec Library for Android
3
4
© Copyright  1995 - 2019 Fraunhofer-Gesellschaft zur Förderung der angewandten
5
Forschung e.V. All rights reserved.
6
7
 1.    INTRODUCTION
8
The Fraunhofer FDK AAC Codec Library for Android ("FDK AAC Codec") is software
9
that implements the MPEG Advanced Audio Coding ("AAC") encoding and decoding
10
scheme for digital audio. This FDK AAC Codec software is intended to be used on
11
a wide variety of Android devices.
12
13
AAC's HE-AAC and HE-AAC v2 versions are regarded as today's most efficient
14
general perceptual audio codecs. AAC-ELD is considered the best-performing
15
full-bandwidth communications codec by independent studies and is widely
16
deployed. AAC has been standardized by ISO and IEC as part of the MPEG
17
specifications.
18
19
Patent licenses for necessary patent claims for the FDK AAC Codec (including
20
those of Fraunhofer) may be obtained through Via Licensing
21
(www.vialicensing.com) or through the respective patent owners individually for
22
the purpose of encoding or decoding bit streams in products that are compliant
23
with the ISO/IEC MPEG audio standards. Please note that most manufacturers of
24
Android devices already license these patent claims through Via Licensing or
25
directly from the patent owners, and therefore FDK AAC Codec software may
26
already be covered under those patent licenses when it is used for those
27
licensed purposes only.
28
29
Commercially-licensed AAC software libraries, including floating-point versions
30
with enhanced sound quality, are also available from Fraunhofer. Users are
31
encouraged to check the Fraunhofer website for additional applications
32
information and documentation.
33
34
2.    COPYRIGHT LICENSE
35
36
Redistribution and use in source and binary forms, with or without modification,
37
are permitted without payment of copyright license fees provided that you
38
satisfy the following conditions:
39
40
You must retain the complete text of this software license in redistributions of
41
the FDK AAC Codec or your modifications thereto in source code form.
42
43
You must retain the complete text of this software license in the documentation
44
and/or other materials provided with redistributions of the FDK AAC Codec or
45
your modifications thereto in binary form. You must make available free of
46
charge copies of the complete source code of the FDK AAC Codec and your
47
modifications thereto to recipients of copies in binary form.
48
49
The name of Fraunhofer may not be used to endorse or promote products derived
50
from this library without prior written permission.
51
52
You may not charge copyright license fees for anyone to use, copy or distribute
53
the FDK AAC Codec software or your modifications thereto.
54
55
Your modified versions of the FDK AAC Codec must carry prominent notices stating
56
that you changed the software and the date of any change. For modified versions
57
of the FDK AAC Codec, the term "Fraunhofer FDK AAC Codec Library for Android"
58
must be replaced by the term "Third-Party Modified Version of the Fraunhofer FDK
59
AAC Codec Library for Android."
60
61
3.    NO PATENT LICENSE
62
63
NO EXPRESS OR IMPLIED LICENSES TO ANY PATENT CLAIMS, including without
64
limitation the patents of Fraunhofer, ARE GRANTED BY THIS SOFTWARE LICENSE.
65
Fraunhofer provides no warranty of patent non-infringement with respect to this
66
software.
67
68
You may use this FDK AAC Codec software or modifications thereto only for
69
purposes that are authorized by appropriate patent licenses.
70
71
4.    DISCLAIMER
72
73
This FDK AAC Codec software is provided by Fraunhofer on behalf of the copyright
74
holders and contributors "AS IS" and WITHOUT ANY EXPRESS OR IMPLIED WARRANTIES,
75
including but not limited to the implied warranties of merchantability and
76
fitness for a particular purpose. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR
77
CONTRIBUTORS BE LIABLE for any direct, indirect, incidental, special, exemplary,
78
or consequential damages, including but not limited to procurement of substitute
79
goods or services; loss of use, data, or profits, or business interruption,
80
however caused and on any theory of liability, whether in contract, strict
81
liability, or tort (including negligence), arising in any way out of the use of
82
this software, even if advised of the possibility of such damage.
83
84
5.    CONTACT INFORMATION
85
86
Fraunhofer Institute for Integrated Circuits IIS
87
Attention: Audio and Multimedia Departments - FDK AAC LL
88
Am Wolfsmantel 33
89
91058 Erlangen, Germany
90
91
www.iis.fraunhofer.de/amm
92
amm-info@iis.fraunhofer.de
93
----------------------------------------------------------------------------- */
94
95
/************************* MPEG-D DRC decoder library **************************
96
97
   Author(s):
98
99
   Description:
100
101
*******************************************************************************/
102
103
#include "drcDec_types.h"
104
#include "drcDec_gainDecoder.h"
105
#include "drcGainDec_preprocess.h"
106
#include "drcDec_tools.h"
107
#include "FDK_matrixCalloc.h"
108
#include "drcDec_rom.h"
109
110
#define SLOPE_FACTOR_DB_TO_LINEAR \
111
0
  FL2FXCONST_DBL(0.1151f * (float)(1 << 3)) /* ln(10) / 20 */
112
113
typedef struct {
114
  int drcSetEffect;
115
  DUCKING_MODIFICATION* pDMod;
116
  GAIN_MODIFICATION* pGMod;
117
  int drcCharacteristicPresent;
118
  CHARACTERISTIC_FORMAT characteristicFormatSource[2];
119
  const CUSTOM_DRC_CHAR* pCCharSource[2];
120
  CHARACTERISTIC_FORMAT characteristicFormatTarget[2];
121
  const CUSTOM_DRC_CHAR* pCCharTarget[2];
122
  int slopeIsNegative;
123
  int limiterPeakTargetPresent;
124
  FIXP_SGL limiterPeakTarget;
125
  FIXP_DBL loudnessNormalizationGainDb;
126
  FIXP_SGL compress;
127
  FIXP_SGL boost;
128
} NODE_MODIFICATION;
129
130
static DRC_ERROR _getCicpCharacteristic(
131
    const int cicpCharacteristic,
132
    CHARACTERISTIC_FORMAT pCharacteristicFormat[2],
133
30.9k
    const CUSTOM_DRC_CHAR* pCCharSource[2]) {
134
30.9k
  if ((cicpCharacteristic < 1) || (cicpCharacteristic > 11)) {
135
936
    return DE_NOT_OK;
136
936
  }
137
138
30.0k
  if (cicpCharacteristic < 7) { /* sigmoid characteristic */
139
9.84k
    pCharacteristicFormat[CS_LEFT] = CF_SIGMOID;
140
9.84k
    pCCharSource[CS_LEFT] =
141
9.84k
        (const CUSTOM_DRC_CHAR*)(&cicpDrcCharSigmoidLeft[cicpCharacteristic -
142
9.84k
                                                         1]);
143
9.84k
    pCharacteristicFormat[CS_RIGHT] = CF_SIGMOID;
144
9.84k
    pCCharSource[CS_RIGHT] =
145
9.84k
        (const CUSTOM_DRC_CHAR*)(&cicpDrcCharSigmoidRight[cicpCharacteristic -
146
9.84k
                                                          1]);
147
20.2k
  } else { /* nodes characteristic */
148
20.2k
    pCharacteristicFormat[CS_LEFT] = CF_NODES;
149
20.2k
    pCCharSource[CS_LEFT] =
150
20.2k
        (const CUSTOM_DRC_CHAR*)(&cicpDrcCharNodesLeft[cicpCharacteristic - 7]);
151
20.2k
    pCharacteristicFormat[CS_RIGHT] = CF_NODES;
152
20.2k
    pCCharSource[CS_RIGHT] =
153
20.2k
        (const CUSTOM_DRC_CHAR*)(&cicpDrcCharNodesRight[cicpCharacteristic -
154
20.2k
                                                        7]);
155
20.2k
  }
156
30.0k
  return DE_OK;
157
30.9k
}
158
159
102k
static int _getSign(FIXP_SGL in) {
160
102k
  if (in > (FIXP_DBL)0) return 1;
161
81.8k
  if (in < (FIXP_DBL)0) return -1;
162
21.6k
  return 0;
163
81.8k
}
164
165
static DRC_ERROR _getSlopeSign(const CHARACTERISTIC_FORMAT drcCharFormat,
166
60.1k
                               const CUSTOM_DRC_CHAR* pCChar, int* pSlopeSign) {
167
60.1k
  if (drcCharFormat == CF_SIGMOID) {
168
19.6k
    *pSlopeSign = (pCChar->sigmoid.flipSign ? 1 : -1);
169
40.4k
  } else {
170
40.4k
    int k, slopeSign = 0, tmp_slopeSign;
171
142k
    for (k = 0; k < pCChar->nodes.characteristicNodeCount; k++) {
172
102k
      if (pCChar->nodes.nodeLevel[k + 1] > pCChar->nodes.nodeLevel[k]) {
173
80.4k
        tmp_slopeSign =
174
80.4k
            _getSign(pCChar->nodes.nodeGain[k + 1] - pCChar->nodes.nodeGain[k]);
175
80.4k
      } else {
176
21.6k
        tmp_slopeSign = -_getSign(pCChar->nodes.nodeGain[k + 1] -
177
21.6k
                                  pCChar->nodes.nodeGain[k]);
178
21.6k
      }
179
102k
      if ((slopeSign || tmp_slopeSign) && (slopeSign == -tmp_slopeSign))
180
0
        return DE_NOT_OK; /* DRC characteristic is not invertible */
181
102k
      else
182
102k
        slopeSign = tmp_slopeSign;
183
102k
    }
184
40.4k
    *pSlopeSign = slopeSign;
185
40.4k
  }
186
60.1k
  return DE_OK;
187
60.1k
}
188
189
static DRC_ERROR _isSlopeNegative(const CHARACTERISTIC_FORMAT drcCharFormat[2],
190
                                  const CUSTOM_DRC_CHAR* pCChar[2],
191
30.0k
                                  int* pSlopeIsNegative) {
192
30.0k
  DRC_ERROR err = DE_OK;
193
30.0k
  int slopeSign[2] = {0, 0};
194
195
30.0k
  err = _getSlopeSign(drcCharFormat[CS_LEFT], pCChar[CS_LEFT],
196
30.0k
                      &slopeSign[CS_LEFT]);
197
30.0k
  if (err) return err;
198
199
30.0k
  err = _getSlopeSign(drcCharFormat[CS_RIGHT], pCChar[CS_RIGHT],
200
30.0k
                      &slopeSign[CS_RIGHT]);
201
30.0k
  if (err) return err;
202
203
30.0k
  if ((slopeSign[CS_LEFT] || slopeSign[CS_RIGHT]) &&
204
30.0k
      (slopeSign[CS_LEFT] == -slopeSign[CS_RIGHT]))
205
0
    return DE_NOT_OK; /* DRC characteristic is not invertible */
206
207
30.0k
  *pSlopeIsNegative = (slopeSign[CS_LEFT] < 0);
208
30.0k
  return DE_OK;
209
30.0k
}
210
211
static DRC_ERROR _prepareDrcCharacteristic(const DRC_CHARACTERISTIC* pDChar,
212
                                           DRC_COEFFICIENTS_UNI_DRC* pCoef,
213
                                           const int b,
214
32.1k
                                           NODE_MODIFICATION* pNodeMod) {
215
32.1k
  DRC_ERROR err = DE_OK;
216
32.1k
  pNodeMod->drcCharacteristicPresent = pDChar->present;
217
32.1k
  if (pNodeMod->drcCharacteristicPresent) {
218
30.9k
    if (pDChar->isCICP == 1) {
219
30.9k
      err = _getCicpCharacteristic(pDChar->cicpIndex,
220
30.9k
                                   pNodeMod->characteristicFormatSource,
221
30.9k
                                   pNodeMod->pCCharSource);
222
30.9k
      if (err) return err;
223
30.9k
    } else {
224
0
      pNodeMod->characteristicFormatSource[CS_LEFT] =
225
0
          (CHARACTERISTIC_FORMAT)
226
0
              pCoef->characteristicLeftFormat[pDChar->custom.left];
227
0
      pNodeMod->pCCharSource[CS_LEFT] =
228
0
          &(pCoef->customCharacteristicLeft[pDChar->custom.left]);
229
0
      pNodeMod->characteristicFormatSource[CS_RIGHT] =
230
0
          (CHARACTERISTIC_FORMAT)
231
0
              pCoef->characteristicRightFormat[pDChar->custom.right];
232
0
      pNodeMod->pCCharSource[CS_RIGHT] =
233
0
          &(pCoef->customCharacteristicRight[pDChar->custom.right]);
234
0
    }
235
30.0k
    err = _isSlopeNegative(pNodeMod->characteristicFormatSource,
236
30.0k
                           pNodeMod->pCCharSource, &pNodeMod->slopeIsNegative);
237
30.0k
    if (err) return err;
238
239
30.0k
    if (pNodeMod->pGMod != NULL) {
240
28.8k
      if (pNodeMod->pGMod[b].targetCharacteristicLeftPresent) {
241
0
        pNodeMod->characteristicFormatTarget[CS_LEFT] =
242
0
            (CHARACTERISTIC_FORMAT)pCoef->characteristicLeftFormat
243
0
                [pNodeMod->pGMod[b].targetCharacteristicLeftIndex];
244
0
        pNodeMod->pCCharTarget[CS_LEFT] =
245
0
            &(pCoef->customCharacteristicLeft
246
0
                  [pNodeMod->pGMod[b].targetCharacteristicLeftIndex]);
247
0
      }
248
28.8k
      if (pNodeMod->pGMod[b].targetCharacteristicRightPresent) {
249
0
        pNodeMod->characteristicFormatTarget[CS_RIGHT] =
250
0
            (CHARACTERISTIC_FORMAT)pCoef->characteristicRightFormat
251
0
                [pNodeMod->pGMod[b].targetCharacteristicRightIndex];
252
0
        pNodeMod->pCCharTarget[CS_RIGHT] =
253
0
            &(pCoef->customCharacteristicRight
254
0
                  [pNodeMod->pGMod[b].targetCharacteristicRightIndex]);
255
0
      }
256
28.8k
    }
257
30.0k
  }
258
31.2k
  return DE_OK;
259
32.1k
}
260
261
static DRC_ERROR _compressorIO_sigmoid_common(
262
    const FIXP_DBL tmp,               /* e = 7 */
263
    const FIXP_DBL gainDbLimit,       /* e = 6 */
264
    const FIXP_DBL exp,               /* e = 5 */
265
    const int inverse, FIXP_DBL* out) /* e = 7 */
266
0
{
267
0
  FIXP_DBL x, tmp1, tmp2, invExp, denom;
268
0
  int e_x, e_tmp1, e_tmp2, e_invExp, e_denom, e_out;
269
270
0
  if (exp < FL2FXCONST_DBL(1.0f / (float)(1 << 5))) {
271
0
    return DE_NOT_OK;
272
0
  }
273
274
  /* x = tmp / gainDbLimit; */
275
0
  x = fDivNormSigned(tmp, gainDbLimit, &e_x);
276
0
  e_x += 7 - 6;
277
0
  if (x < (FIXP_DBL)0) {
278
0
    return DE_NOT_OK;
279
0
  }
280
281
  /* out = tmp / pow(1.0f +/- pow(x, exp), 1.0f/exp); */
282
0
  tmp1 = fPow(x, e_x, exp, 5, &e_tmp1);
283
0
  if (inverse) tmp1 = -tmp1;
284
0
  tmp2 = fAddNorm(FL2FXCONST_DBL(1.0f / (float)(1 << 1)), 1, tmp1, e_tmp1,
285
0
                  &e_tmp2);
286
0
  invExp = fDivNorm(FL2FXCONST_DBL(1.0f / (float)(1 << 1)), exp, &e_invExp);
287
0
  e_invExp += 1 - 5;
288
0
  if (tmp2 < (FIXP_DBL)0) {
289
0
    return DE_NOT_OK;
290
0
  }
291
0
  denom = fPow(tmp2, e_tmp2, invExp, e_invExp, &e_denom);
292
0
  *out = fDivNormSigned(tmp, denom, &e_out);
293
0
  e_out += 7 - e_denom;
294
0
  *out = scaleValueSaturate(*out, e_out - 7);
295
0
  return DE_OK;
296
0
}
297
298
static DRC_ERROR _compressorIO_sigmoid(const CUSTOM_DRC_CHAR_SIGMOID* pCChar,
299
                                       const FIXP_DBL inLevelDb, /* e = 7 */
300
                                       FIXP_DBL* outGainDb)      /* e = 7 */
301
0
{
302
0
  FIXP_DBL tmp;
303
0
  FIXP_SGL exp = pCChar->exp;
304
0
  DRC_ERROR err = DE_OK;
305
306
0
  tmp = fMultDiv2((DRC_INPUT_LOUDNESS_TARGET >> 1) - (inLevelDb >> 1),
307
0
                  pCChar->ioRatio);
308
0
  tmp = SATURATE_LEFT_SHIFT(tmp, 2 + 1 + 1, DFRACT_BITS);
309
0
  if (exp < (FIXP_SGL)MAXVAL_SGL) {
310
    /* x = tmp / gainDbLimit; */
311
    /* *outGainDb = tmp / pow(1.0f + pow(x, exp), 1.0f/exp); */
312
0
    err = _compressorIO_sigmoid_common(tmp, FX_SGL2FX_DBL(pCChar->gain),
313
0
                                       FX_SGL2FX_DBL(exp), 0, outGainDb);
314
0
    if (err) return err;
315
0
  } else {
316
0
    *outGainDb =
317
0
        tmp; /* scaling of outGainDb (7) is equal to scaling of tmp (7) */
318
0
  }
319
0
  if (pCChar->flipSign == 1) {
320
0
    *outGainDb = -*outGainDb;
321
0
  }
322
0
  return err;
323
0
}
324
325
static DRC_ERROR _compressorIO_sigmoid_inverse(
326
    const CUSTOM_DRC_CHAR_SIGMOID* pCChar, const FIXP_SGL gainDb,
327
0
    FIXP_DBL* inLev) {
328
0
  DRC_ERROR err = DE_OK;
329
0
  FIXP_SGL ioRatio = pCChar->ioRatio;
330
0
  FIXP_SGL exp = pCChar->exp;
331
0
  FIXP_DBL tmp = FX_SGL2FX_DBL(gainDb), tmp_out;
332
0
  int e_out;
333
334
0
  if (pCChar->flipSign == 1) {
335
0
    tmp = -tmp;
336
0
  }
337
0
  if (exp < (FIXP_SGL)MAXVAL_SGL) {
338
    /* x = tmp / gainDbLimit; */
339
    /* tmp = tmp / pow(1.0f - pow(x, exp), 1.0f / exp); */
340
0
    err = _compressorIO_sigmoid_common(tmp, FX_SGL2FX_DBL(pCChar->gain),
341
0
                                       FX_SGL2FX_DBL(exp), 1, &tmp);
342
0
    if (err) return err;
343
0
  }
344
0
  if (ioRatio == (FIXP_SGL)0) {
345
0
    return DE_NOT_OK;
346
0
  }
347
0
  tmp_out = fDivNormSigned(tmp, FX_SGL2FX_DBL(ioRatio), &e_out);
348
0
  e_out += 7 - 2;
349
0
  tmp_out = fAddNorm(DRC_INPUT_LOUDNESS_TARGET, 7, -tmp_out, e_out, &e_out);
350
0
  *inLev = scaleValueSaturate(tmp_out, e_out - 7);
351
352
0
  return err;
353
0
}
354
355
static DRC_ERROR _compressorIO_nodes(const CUSTOM_DRC_CHAR_NODES* pCChar,
356
                                     const FIXP_DBL inLevelDb, /* e = 7 */
357
                                     FIXP_DBL* outGainDb)      /* e = 7 */
358
0
{
359
0
  int n;
360
0
  FIXP_DBL w;
361
0
  const FIXP_SGL* nodeLevel = pCChar->nodeLevel;
362
0
  const FIXP_SGL* nodeGain = pCChar->nodeGain;
363
364
0
  if (inLevelDb < DRC_INPUT_LOUDNESS_TARGET) {
365
0
    for (n = 0; n < pCChar->characteristicNodeCount; n++) {
366
0
      if ((inLevelDb <= FX_SGL2FX_DBL(nodeLevel[n])) &&
367
0
          (inLevelDb > FX_SGL2FX_DBL(nodeLevel[n + 1]))) {
368
0
        w = fDivNorm(inLevelDb - FX_SGL2FX_DBL(nodeLevel[n + 1]),
369
0
                     FX_SGL2FX_DBL(nodeLevel[n] - nodeLevel[n + 1]));
370
0
        *outGainDb = fMult(w, nodeGain[n]) +
371
0
                     fMult((FIXP_DBL)MAXVAL_DBL - w, nodeGain[n + 1]);
372
        /* *outGainDb = (w * nodeGain[n] + (1.0-w) * nodeGain[n+1]); */
373
0
        return DE_OK;
374
0
      }
375
0
    }
376
0
  } else {
377
0
    for (n = 0; n < pCChar->characteristicNodeCount; n++) {
378
0
      if ((inLevelDb >= FX_SGL2FX_DBL(nodeLevel[n])) &&
379
0
          (inLevelDb < FX_SGL2FX_DBL(nodeLevel[n + 1]))) {
380
0
        w = fDivNorm(FX_SGL2FX_DBL(nodeLevel[n + 1]) - inLevelDb,
381
0
                     FX_SGL2FX_DBL(nodeLevel[n + 1] - nodeLevel[n]));
382
0
        *outGainDb = fMult(w, nodeGain[n]) +
383
0
                     fMult((FIXP_DBL)MAXVAL_DBL - w, nodeGain[n + 1]);
384
        /* *outGainDb = (w * nodeGain[n] + (1.0-w) * nodeGain[n+1]); */
385
0
        return DE_OK;
386
0
      }
387
0
    }
388
0
  }
389
0
  *outGainDb = FX_SGL2FX_DBL(nodeGain[pCChar->characteristicNodeCount]);
390
0
  return DE_OK;
391
0
}
392
393
static DRC_ERROR _compressorIO_nodes_inverse(
394
    const CUSTOM_DRC_CHAR_NODES* pCChar, const FIXP_SGL gainDb, /* e = 7 */
395
    FIXP_DBL* inLev)                                            /* e = 7 */
396
0
{
397
0
  int n;
398
0
  int k;
399
0
  FIXP_DBL w;
400
0
  int gainIsNegative = 0;
401
0
  const FIXP_SGL* nodeLevel = pCChar->nodeLevel;
402
0
  const FIXP_SGL* nodeGain = pCChar->nodeGain;
403
0
  int nodeCount = pCChar->characteristicNodeCount;
404
0
  for (k = 0; k < nodeCount; k++) {
405
0
    if (pCChar->nodeGain[k + 1] < (FIXP_SGL)0) {
406
0
      gainIsNegative = 1;
407
0
    }
408
0
  }
409
0
  if (gainIsNegative == 1) {
410
0
    if (gainDb <= nodeGain[nodeCount]) {
411
0
      *inLev = FX_SGL2FX_DBL(nodeLevel[nodeCount]);
412
0
    } else {
413
0
      if (gainDb >= (FIXP_SGL)0) {
414
0
        *inLev = DRC_INPUT_LOUDNESS_TARGET;
415
0
      } else {
416
0
        for (n = 0; n < nodeCount; n++) {
417
0
          if ((gainDb <= nodeGain[n]) && (gainDb > nodeGain[n + 1])) {
418
0
            FIXP_SGL gainDelta = nodeGain[n] - nodeGain[n + 1];
419
0
            if (gainDelta == (FIXP_SGL)0) {
420
0
              *inLev = FX_SGL2FX_DBL(nodeLevel[n]);
421
0
              return DE_OK;
422
0
            }
423
0
            w = fDivNorm(gainDb - nodeGain[n + 1], gainDelta);
424
0
            *inLev = fMult(w, nodeLevel[n]) +
425
0
                     fMult((FIXP_DBL)MAXVAL_DBL - w, nodeLevel[n + 1]);
426
            /* *inLev = (w * nodeLevel[n] + (1.0-w) * nodeLevel[n+1]); */
427
0
            return DE_OK;
428
0
          }
429
0
        }
430
0
        *inLev = FX_SGL2FX_DBL(nodeLevel[nodeCount]);
431
0
      }
432
0
    }
433
0
  } else {
434
0
    if (gainDb >= nodeGain[nodeCount]) {
435
0
      *inLev = FX_SGL2FX_DBL(nodeLevel[nodeCount]);
436
0
    } else {
437
0
      if (gainDb <= (FIXP_SGL)0) {
438
0
        *inLev = DRC_INPUT_LOUDNESS_TARGET;
439
0
      } else {
440
0
        for (n = 0; n < nodeCount; n++) {
441
0
          if ((gainDb >= nodeGain[n]) && (gainDb < nodeGain[n + 1])) {
442
0
            FIXP_SGL gainDelta = nodeGain[n + 1] - nodeGain[n];
443
0
            if (gainDelta == (FIXP_SGL)0) {
444
0
              *inLev = FX_SGL2FX_DBL(nodeLevel[n]);
445
0
              return DE_OK;
446
0
            }
447
0
            w = fDivNorm(nodeGain[n + 1] - gainDb, gainDelta);
448
0
            *inLev = fMult(w, nodeLevel[n]) +
449
0
                     fMult((FIXP_DBL)MAXVAL_DBL - w, nodeLevel[n + 1]);
450
            /* *inLev = (w * nodeLevel[n] + (1.0-w) * nodeLevel[n+1]); */
451
0
            return DE_OK;
452
0
          }
453
0
        }
454
0
        *inLev = FX_SGL2FX_DBL(nodeLevel[nodeCount]);
455
0
      }
456
0
    }
457
0
  }
458
0
  return DE_OK;
459
0
}
460
461
static DRC_ERROR _mapGain(const CHARACTERISTIC_FORMAT pCCharFormatSource,
462
                          const CUSTOM_DRC_CHAR* pCCharSource,
463
                          const CHARACTERISTIC_FORMAT pCCharFormatTarget,
464
                          const CUSTOM_DRC_CHAR* pCCharTarget,
465
                          const FIXP_SGL gainInDb, /* e = 7 */
466
                          FIXP_DBL* gainOutDb)     /* e = 7 */
467
0
{
468
0
  FIXP_DBL inLevel = (FIXP_DBL)0;
469
0
  DRC_ERROR err = DE_OK;
470
471
0
  switch (pCCharFormatSource) {
472
0
    case CF_SIGMOID:
473
0
      err = _compressorIO_sigmoid_inverse(
474
0
          (const CUSTOM_DRC_CHAR_SIGMOID*)pCCharSource, gainInDb, &inLevel);
475
0
      if (err) return err;
476
0
      break;
477
0
    case CF_NODES:
478
0
      err = _compressorIO_nodes_inverse(
479
0
          (const CUSTOM_DRC_CHAR_NODES*)pCCharSource, gainInDb, &inLevel);
480
0
      if (err) return err;
481
0
      break;
482
0
    default:
483
0
      return DE_NOT_OK;
484
0
  }
485
0
  switch (pCCharFormatTarget) {
486
0
    case CF_SIGMOID:
487
0
      err = _compressorIO_sigmoid((const CUSTOM_DRC_CHAR_SIGMOID*)pCCharTarget,
488
0
                                  inLevel, gainOutDb);
489
0
      if (err) return err;
490
0
      break;
491
0
    case CF_NODES:
492
0
      err = _compressorIO_nodes((const CUSTOM_DRC_CHAR_NODES*)pCCharTarget,
493
0
                                inLevel, gainOutDb);
494
0
      if (err) return err;
495
0
      break;
496
0
    default:
497
0
      break;
498
0
  }
499
0
  return DE_OK;
500
0
}
501
502
static DRC_ERROR _toLinear(
503
    const NODE_MODIFICATION* nodeMod, const int drcBand,
504
    const FIXP_SGL gainDb,  /* in: gain value in dB, e = 7 */
505
    const FIXP_SGL slopeDb, /* in: slope value in dB/deltaTmin, e = 2 */
506
    FIXP_DBL* gainLin,      /* out: linear gain value, e = 7 */
507
    FIXP_DBL* slopeLin)     /* out: linear slope value, e = 7 */
508
124k
{
509
124k
  FIXP_DBL gainRatio_m = FL2FXCONST_DBL(1.0f / (float)(1 << 1));
510
124k
  GAIN_MODIFICATION* pGMod = NULL;
511
124k
  DUCKING_MODIFICATION* pDMod = nodeMod->pDMod;
512
124k
  FIXP_DBL tmp_dbl, gainDb_modified, gainDb_offset, gainDb_out, gainLin_m,
513
124k
      slopeLin_m;
514
124k
  int gainLin_e, gainRatio_e = 1, gainDb_out_e;
515
124k
  if (nodeMod->pGMod != NULL) {
516
122k
    pGMod = &(nodeMod->pGMod[drcBand]);
517
122k
  }
518
124k
  if (((nodeMod->drcSetEffect & (EB_DUCK_OTHER | EB_DUCK_SELF)) == 0) &&
519
122k
      (nodeMod->drcSetEffect != EB_FADE) &&
520
122k
      (nodeMod->drcSetEffect != EB_CLIPPING)) {
521
121k
    DRC_ERROR err = DE_OK;
522
121k
    FIXP_DBL gainDbMapped;
523
524
121k
    if ((pGMod != NULL) && (nodeMod->drcCharacteristicPresent)) {
525
119k
      if (((gainDb > (FIXP_SGL)0) && nodeMod->slopeIsNegative) ||
526
101k
          ((gainDb < (FIXP_SGL)0) && !nodeMod->slopeIsNegative)) {
527
        /* left side */
528
17.6k
        if (pGMod->targetCharacteristicLeftPresent == 1) {
529
0
          err = _mapGain(nodeMod->characteristicFormatSource[CS_LEFT],
530
0
                         nodeMod->pCCharSource[CS_LEFT],
531
0
                         nodeMod->characteristicFormatTarget[CS_LEFT],
532
0
                         nodeMod->pCCharTarget[CS_LEFT], gainDb, &gainDbMapped);
533
0
          if (err) return err;
534
0
          gainRatio_m = fDivNormSigned(
535
0
              gainDbMapped, FX_SGL2FX_DBL(gainDb),
536
0
              &gainRatio_e); /* target characteristic in payload */
537
0
        }
538
17.6k
      }
539
540
101k
      else { /* if (((gainDb < (FIXP_SGL)0) && nodeMod->slopeIsNegative) ||
541
                ((gainDb > (FIXP_SGL)0) && !nodeMod->slopeIsNegative)) */
542
543
        /* right side */
544
101k
        if (pGMod->targetCharacteristicRightPresent == 1) {
545
0
          err =
546
0
              _mapGain(nodeMod->characteristicFormatSource[CS_RIGHT],
547
0
                       nodeMod->pCCharSource[CS_RIGHT],
548
0
                       nodeMod->characteristicFormatTarget[CS_RIGHT],
549
0
                       nodeMod->pCCharTarget[CS_RIGHT], gainDb, &gainDbMapped);
550
0
          if (err) return err;
551
0
          gainRatio_m = fDivNormSigned(
552
0
              gainDbMapped, FX_SGL2FX_DBL(gainDb),
553
0
              &gainRatio_e); /* target characteristic in payload */
554
0
        }
555
101k
      }
556
119k
    }
557
121k
    if (gainDb < (FIXP_SGL)0) {
558
86.2k
      gainRatio_m = fMultDiv2(gainRatio_m, nodeMod->compress);
559
86.2k
    } else {
560
35.3k
      gainRatio_m = fMultDiv2(gainRatio_m, nodeMod->boost);
561
35.3k
    }
562
121k
    gainRatio_e += 2;
563
121k
  }
564
124k
  if ((pGMod != NULL) && (pGMod->gainScalingPresent == 1)) {
565
117k
    if (gainDb < (FIXP_SGL)0) {
566
83.7k
      gainRatio_m = fMultDiv2(gainRatio_m, pGMod->attenuationScaling);
567
83.7k
    } else {
568
33.9k
      gainRatio_m = fMultDiv2(gainRatio_m, pGMod->amplificationScaling);
569
33.9k
    }
570
117k
    gainRatio_e += 3;
571
117k
  }
572
124k
  if ((pDMod != NULL) &&
573
1.83k
      (nodeMod->drcSetEffect & (EB_DUCK_OTHER | EB_DUCK_SELF)) &&
574
1.83k
      (pDMod->duckingScalingPresent == 1)) {
575
1.15k
    gainRatio_m = fMultDiv2(gainRatio_m, pDMod->duckingScaling);
576
1.15k
    gainRatio_e += 3;
577
1.15k
  }
578
579
124k
  gainDb_modified =
580
124k
      fMultDiv2(gainDb, gainRatio_m); /* resulting e: 7 + gainRatio_e + 1*/
581
124k
  gainDb_offset = (FIXP_DBL)0;
582
583
124k
  if ((pGMod != NULL) && (pGMod->gainOffsetPresent == 1)) {
584
    /* *gainLin *= (float)pow(2.0, (double)(pGMod->gainOffset/6.0f)); */
585
118k
    gainDb_offset += FX_SGL2FX_DBL(pGMod->gainOffset) >> 4; /* resulting e: 8 */
586
118k
  }
587
124k
  if ((nodeMod->limiterPeakTargetPresent == 1) &&
588
115k
      (nodeMod->drcSetEffect ==
589
115k
       EB_CLIPPING)) { /* The only drcSetEffect is "clipping prevention" */
590
    /* loudnessNormalizationGainModificationDb is included in
591
     * loudnessNormalizationGainDb */
592
    /* *gainLin *= (float)pow(2.0, max(0.0, -nodeModification->limiterPeakTarget
593
     * - nodeModification->loudnessNormalizationGainDb)/6.0); */
594
758
    gainDb_offset += fMax(
595
758
        (FIXP_DBL)0,
596
758
        (FX_SGL2FX_DBL(-nodeMod->limiterPeakTarget) >> 3) -
597
758
            (nodeMod->loudnessNormalizationGainDb >> 1)); /* resulting e: 8 */
598
758
  }
599
124k
  if (gainDb_offset != (FIXP_DBL)0) {
600
118k
    gainDb_out = fAddNorm(gainDb_modified, 7 + gainRatio_e + 1, gainDb_offset,
601
118k
                          8, &gainDb_out_e);
602
118k
  } else {
603
6.70k
    gainDb_out = gainDb_modified;
604
6.70k
    gainDb_out_e = 7 + gainRatio_e + 1;
605
6.70k
  }
606
607
  /* *gainLin = (float)pow(2.0, (double)(gainDb_modified[1] / 6.0f)); */
608
124k
  gainLin_m = approxDb2lin(gainDb_out, gainDb_out_e, &gainLin_e);
609
124k
  *gainLin = scaleValueSaturate(gainLin_m, gainLin_e - 7);
610
611
  /* *slopeLin = SLOPE_FACTOR_DB_TO_LINEAR * gainRatio * *gainLin * slopeDb; */
612
124k
  if (slopeDb == (FIXP_SGL)0) {
613
124k
    *slopeLin = (FIXP_DBL)0;
614
124k
  } else {
615
0
    tmp_dbl =
616
0
        fMult(slopeDb, SLOPE_FACTOR_DB_TO_LINEAR); /* resulting e: 2 - 3 = -1 */
617
0
    tmp_dbl = fMult(tmp_dbl, gainRatio_m); /* resulting e: -1 + gainRatio_e */
618
0
    if (gainDb_offset !=
619
0
        (FIXP_DBL)0) { /* recalculate gainLin from gainDb that wasn't modified
620
                          by gainOffset and limiterPeakTarget */
621
0
      gainLin_m = approxDb2lin(gainDb_modified, 7 + gainRatio_e, &gainLin_e);
622
0
    }
623
0
    slopeLin_m = fMult(tmp_dbl, gainLin_m);
624
0
    *slopeLin =
625
0
        scaleValueSaturate(slopeLin_m, -1 + gainRatio_e + gainLin_e - 7);
626
0
  }
627
628
124k
  if ((nodeMod->limiterPeakTargetPresent == 1) &&
629
115k
      (nodeMod->drcSetEffect == EB_CLIPPING)) {
630
758
    if (*gainLin >= FL2FXCONST_DBL(1.0f / (float)(1 << 7))) {
631
437
      *gainLin = FL2FXCONST_DBL(1.0f / (float)(1 << 7));
632
437
      *slopeLin = (FIXP_DBL)0;
633
437
    }
634
758
  }
635
636
124k
  return DE_OK;
637
124k
}
638
639
/* prepare buffers containing linear nodes for each gain sequence */
640
DRC_ERROR
641
prepareDrcGain(HANDLE_DRC_GAIN_DECODER hGainDec,
642
               HANDLE_UNI_DRC_GAIN hUniDrcGain, const FIXP_SGL compress,
643
               const FIXP_SGL boost, const FIXP_DBL loudnessNormalizationGainDb,
644
29.3k
               const int activeDrcIndex) {
645
29.3k
  int b, g, gainElementIndex;
646
29.3k
  DRC_GAIN_BUFFERS* drcGainBuffers = &(hGainDec->drcGainBuffers);
647
29.3k
  NODE_MODIFICATION nodeMod;
648
29.3k
  FDKmemclear(&nodeMod, sizeof(NODE_MODIFICATION));
649
29.3k
  ACTIVE_DRC* pActiveDrc = &(hGainDec->activeDrc[activeDrcIndex]);
650
29.3k
  DRC_INSTRUCTIONS_UNI_DRC* pInst = pActiveDrc->pInst;
651
29.3k
  if (pInst == NULL) return DE_NOT_OK;
652
653
29.3k
  nodeMod.drcSetEffect = pInst->drcSetEffect;
654
655
29.3k
  nodeMod.compress = compress;
656
29.3k
  nodeMod.boost = boost;
657
29.3k
  nodeMod.loudnessNormalizationGainDb = loudnessNormalizationGainDb;
658
29.3k
  nodeMod.limiterPeakTargetPresent = pInst->limiterPeakTargetPresent;
659
29.3k
  nodeMod.limiterPeakTarget = pInst->limiterPeakTarget;
660
661
29.3k
  gainElementIndex = 0;
662
42.5k
  for (g = 0; g < pInst->nDrcChannelGroups; g++) {
663
14.2k
    int gainSetIndex = 0;
664
14.2k
    int nDrcBands = 0;
665
14.2k
    DRC_COEFFICIENTS_UNI_DRC* pCoef = pActiveDrc->pCoef;
666
14.2k
    if (pCoef == NULL) return DE_NOT_OK;
667
668
14.2k
    if (!pActiveDrc->channelGroupIsParametricDrc[g]) {
669
12.4k
      gainSetIndex = pInst->gainSetIndexForChannelGroup[g];
670
671
12.4k
      if (nodeMod.drcSetEffect & (EB_DUCK_OTHER | EB_DUCK_SELF)) {
672
1.58k
        nodeMod.pDMod = &(pActiveDrc->duckingModificationForChannelGroup[g]);
673
1.58k
        nodeMod.pGMod = NULL;
674
10.8k
      } else {
675
10.8k
        nodeMod.pGMod = pInst->gainModificationForChannelGroup[g];
676
10.8k
        nodeMod.pDMod = NULL;
677
10.8k
      }
678
679
12.4k
      nDrcBands = pActiveDrc->bandCountForChannelGroup[g];
680
43.6k
      for (b = 0; b < nDrcBands; b++) {
681
32.1k
        DRC_ERROR err = DE_OK;
682
32.1k
        GAIN_SET* pGainSet = &(pCoef->gainSet[gainSetIndex]);
683
32.1k
        int seq = pGainSet->gainSequenceIndex[b];
684
32.1k
        DRC_CHARACTERISTIC* pDChar = &(pGainSet->drcCharacteristic[b]);
685
686
        /* linearNodeBuffer contains a copy of the gain sequences (consisting of
687
           nodes) that are relevant for decoding. It also contains gain
688
           sequences of previous frames. */
689
32.1k
        LINEAR_NODE_BUFFER* pLnb =
690
32.1k
            &(drcGainBuffers->linearNodeBuffer[pActiveDrc->activeDrcOffset +
691
32.1k
                                               gainElementIndex]);
692
32.1k
        int i, lnbp;
693
32.1k
        lnbp = drcGainBuffers->lnbPointer;
694
32.1k
        pLnb->gainInterpolationType =
695
32.1k
            (GAIN_INTERPOLATION_TYPE)pGainSet->gainInterpolationType;
696
697
32.1k
        err = _prepareDrcCharacteristic(pDChar, pCoef, b, &nodeMod);
698
32.1k
        if (err) return err;
699
700
        /* copy a node buffer and convert from dB to linear */
701
31.2k
        pLnb->nNodes[lnbp] = fMin((int)hUniDrcGain->nNodes[seq], 16);
702
156k
        for (i = 0; i < pLnb->nNodes[lnbp]; i++) {
703
124k
          FIXP_DBL gainLin, slopeLin;
704
124k
          err = _toLinear(&nodeMod, b, hUniDrcGain->gainNode[seq][i].gainDb,
705
124k
                          (FIXP_SGL)0, &gainLin, &slopeLin);
706
124k
          if (err) return err;
707
124k
          pLnb->linearNode[lnbp][i].gainLin = gainLin;
708
124k
          pLnb->linearNode[lnbp][i].time = hUniDrcGain->gainNode[seq][i].time;
709
124k
        }
710
31.2k
        gainElementIndex++;
711
31.2k
      }
712
12.4k
    } else {
713
      /* parametric DRC not supported */
714
1.79k
      gainElementIndex++;
715
1.79k
    }
716
14.2k
  }
717
28.3k
  return DE_OK;
718
29.3k
}