Coverage Report

Created: 2026-07-16 06:55

next uncovered line (L), next uncovered region (R), next uncovered branch (B)
/src/aac/libDRCdec/src/FDK_drcDecLib.cpp
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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):   Bernhard Neugebauer
98
99
   Description: MPEG-D DRC Decoder
100
101
*******************************************************************************/
102
103
#include "drcDec_reader.h"
104
#include "drcDec_gainDecoder.h"
105
#include "FDK_drcDecLib.h"
106
107
#include "drcDec_selectionProcess.h"
108
#include "drcDec_tools.h"
109
110
/* Decoder library info */
111
#define DRCDEC_LIB_VL0 2
112
#define DRCDEC_LIB_VL1 1
113
#define DRCDEC_LIB_VL2 0
114
0
#define DRCDEC_LIB_TITLE "MPEG-D DRC Decoder Lib"
115
#ifdef SUPPRESS_BUILD_DATE_INFO
116
#define DRCDEC_LIB_BUILD_DATE ""
117
#define DRCDEC_LIB_BUILD_TIME ""
118
#else
119
0
#define DRCDEC_LIB_BUILD_DATE __DATE__
120
0
#define DRCDEC_LIB_BUILD_TIME __TIME__
121
#endif
122
123
typedef enum {
124
  DRC_DEC_NOT_INITIALIZED = 0,
125
  DRC_DEC_INITIALIZED,
126
  DRC_DEC_NEW_GAIN_PAYLOAD,
127
  DRC_DEC_INTERPOLATION_PREPARED
128
} DRC_DEC_STATUS;
129
130
struct s_drc_decoder {
131
  DRC_DEC_CODEC_MODE codecMode;
132
  DRC_DEC_FUNCTIONAL_RANGE functionalRange;
133
  DRC_DEC_STATUS status;
134
135
  /* handles of submodules */
136
  HANDLE_DRC_GAIN_DECODER hGainDec;
137
  HANDLE_DRC_SELECTION_PROCESS hSelectionProc;
138
  int selProcInputDiff;
139
140
  /* data structs */
141
  UNI_DRC_CONFIG uniDrcConfig;
142
  LOUDNESS_INFO_SET loudnessInfoSet;
143
  UNI_DRC_GAIN uniDrcGain;
144
145
  SEL_PROC_OUTPUT selProcOutput;
146
} DRC_DECODER;
147
148
8.73k
static int _getGainStatus(HANDLE_UNI_DRC_GAIN hUniDrcGain) {
149
8.73k
  return hUniDrcGain->status;
150
8.73k
}
151
152
static int isResetNeeded(HANDLE_DRC_DECODER hDrcDec,
153
671k
                         const SEL_PROC_OUTPUT oldSelProcOutput) {
154
671k
  int i, resetNeeded = 0;
155
156
671k
  if (hDrcDec->selProcOutput.numSelectedDrcSets !=
157
671k
      oldSelProcOutput.numSelectedDrcSets) {
158
32.8k
    resetNeeded = 1;
159
638k
  } else {
160
1.31M
    for (i = 0; i < hDrcDec->selProcOutput.numSelectedDrcSets; i++) {
161
677k
      if (hDrcDec->selProcOutput.selectedDrcSetIds[i] !=
162
677k
          oldSelProcOutput.selectedDrcSetIds[i])
163
1.82k
        resetNeeded = 1;
164
677k
      if (hDrcDec->selProcOutput.selectedDownmixIds[i] !=
165
677k
          oldSelProcOutput.selectedDownmixIds[i])
166
1.77k
        resetNeeded = 1;
167
677k
    }
168
638k
  }
169
170
671k
  if (hDrcDec->selProcOutput.boost != oldSelProcOutput.boost) resetNeeded = 1;
171
671k
  if (hDrcDec->selProcOutput.compress != oldSelProcOutput.compress)
172
24.1k
    resetNeeded = 1;
173
174
  /* Note: Changes in downmix matrix are not caught, as they don't affect the
175
   * DRC gain decoder */
176
177
671k
  return resetNeeded;
178
671k
}
179
180
807k
static void startSelectionProcess(HANDLE_DRC_DECODER hDrcDec) {
181
807k
  int uniDrcConfigHasChanged = 0;
182
807k
  SEL_PROC_OUTPUT oldSelProcOutput = hDrcDec->selProcOutput;
183
184
807k
  if (!hDrcDec->status) return;
185
186
671k
  if (hDrcDec->functionalRange & DRC_DEC_SELECTION) {
187
671k
    uniDrcConfigHasChanged = hDrcDec->uniDrcConfig.diff;
188
671k
    if (hDrcDec->uniDrcConfig.diff || hDrcDec->loudnessInfoSet.diff ||
189
587k
        hDrcDec->selProcInputDiff) {
190
      /* in case of an error, signal that selection process was not successful
191
       */
192
234k
      hDrcDec->selProcOutput.numSelectedDrcSets = 0;
193
194
234k
      drcDec_SelectionProcess_Process(
195
234k
          hDrcDec->hSelectionProc, &(hDrcDec->uniDrcConfig),
196
234k
          &(hDrcDec->loudnessInfoSet), &(hDrcDec->selProcOutput));
197
198
234k
      hDrcDec->selProcInputDiff = 0;
199
234k
      hDrcDec->uniDrcConfig.diff = 0;
200
234k
      hDrcDec->loudnessInfoSet.diff = 0;
201
234k
    }
202
671k
  }
203
204
671k
  if (hDrcDec->functionalRange & DRC_DEC_GAIN) {
205
671k
    if (isResetNeeded(hDrcDec, oldSelProcOutput) || uniDrcConfigHasChanged) {
206
101k
      drcDec_GainDecoder_Config(hDrcDec->hGainDec, &(hDrcDec->uniDrcConfig),
207
101k
                                hDrcDec->selProcOutput.numSelectedDrcSets,
208
101k
                                hDrcDec->selProcOutput.selectedDrcSetIds,
209
101k
                                hDrcDec->selProcOutput.selectedDownmixIds);
210
101k
    }
211
671k
  }
212
671k
}
213
214
DRC_DEC_ERROR
215
FDK_drcDec_Open(HANDLE_DRC_DECODER* phDrcDec,
216
32.8k
                const DRC_DEC_FUNCTIONAL_RANGE functionalRange) {
217
32.8k
  DRC_ERROR dErr = DE_OK;
218
32.8k
  DRCDEC_SELECTION_PROCESS_RETURN sErr = DRCDEC_SELECTION_PROCESS_NO_ERROR;
219
32.8k
  HANDLE_DRC_DECODER hDrcDec;
220
221
32.8k
  *phDrcDec = (HANDLE_DRC_DECODER)FDKcalloc(1, sizeof(DRC_DECODER));
222
32.8k
  if (!*phDrcDec) return DRC_DEC_OUT_OF_MEMORY;
223
32.8k
  hDrcDec = *phDrcDec;
224
225
32.8k
  hDrcDec->functionalRange = functionalRange;
226
227
32.8k
  hDrcDec->status = DRC_DEC_NOT_INITIALIZED;
228
32.8k
  hDrcDec->codecMode = DRC_DEC_CODEC_MODE_UNDEFINED;
229
230
32.8k
  if (hDrcDec->functionalRange & DRC_DEC_SELECTION) {
231
32.8k
    sErr = drcDec_SelectionProcess_Create(&(hDrcDec->hSelectionProc));
232
32.8k
    if (sErr) return DRC_DEC_OUT_OF_MEMORY;
233
32.8k
    sErr = drcDec_SelectionProcess_Init(hDrcDec->hSelectionProc);
234
32.8k
    if (sErr) return DRC_DEC_NOT_OK;
235
32.8k
    hDrcDec->selProcInputDiff = 1;
236
32.8k
  }
237
238
32.8k
  if (hDrcDec->functionalRange & DRC_DEC_GAIN) {
239
32.8k
    dErr = drcDec_GainDecoder_Open(&(hDrcDec->hGainDec));
240
32.8k
    if (dErr) return DRC_DEC_OUT_OF_MEMORY;
241
32.8k
  }
242
243
32.8k
  return DRC_DEC_OK;
244
32.8k
}
245
246
DRC_DEC_ERROR
247
FDK_drcDec_SetCodecMode(HANDLE_DRC_DECODER hDrcDec,
248
602k
                        const DRC_DEC_CODEC_MODE codecMode) {
249
602k
  DRC_ERROR dErr = DE_OK;
250
602k
  DRCDEC_SELECTION_PROCESS_RETURN sErr = DRCDEC_SELECTION_PROCESS_NO_ERROR;
251
252
602k
  if (hDrcDec == NULL) return DRC_DEC_NOT_OPENED;
253
254
602k
  if (hDrcDec->codecMode ==
255
602k
      DRC_DEC_CODEC_MODE_UNDEFINED) { /* Set codec mode, if it is set for the
256
                                         first time */
257
19.9k
    hDrcDec->codecMode = codecMode;
258
259
19.9k
    if (hDrcDec->functionalRange & DRC_DEC_SELECTION) {
260
19.9k
      sErr = drcDec_SelectionProcess_SetCodecMode(
261
19.9k
          hDrcDec->hSelectionProc, (SEL_PROC_CODEC_MODE)codecMode);
262
19.9k
      if (sErr) return DRC_DEC_NOT_OK;
263
19.9k
      hDrcDec->selProcInputDiff = 1;
264
19.9k
    }
265
266
19.9k
    if (hDrcDec->functionalRange & DRC_DEC_GAIN) {
267
19.9k
      DELAY_MODE delayMode;
268
19.9k
      int timeDomainSupported;
269
19.9k
      SUBBAND_DOMAIN_MODE subbandDomainSupported;
270
271
19.9k
      switch (hDrcDec->codecMode) {
272
0
        case DRC_DEC_MPEG_4_AAC:
273
19.9k
        case DRC_DEC_MPEG_D_USAC:
274
19.9k
        case DRC_DEC_MPEG_H_3DA:
275
19.9k
        default:
276
19.9k
          delayMode = DM_REGULAR_DELAY;
277
19.9k
      }
278
279
19.9k
      switch (hDrcDec->codecMode) {
280
0
        case DRC_DEC_MPEG_4_AAC:
281
19.9k
        case DRC_DEC_MPEG_D_USAC:
282
19.9k
          timeDomainSupported = 1;
283
19.9k
          subbandDomainSupported = SDM_OFF;
284
19.9k
          break;
285
0
        case DRC_DEC_MPEG_H_3DA:
286
0
          timeDomainSupported = 1;
287
0
          subbandDomainSupported = SDM_STFT256;
288
0
          break;
289
290
0
        case DRC_DEC_TEST_TIME_DOMAIN:
291
0
          timeDomainSupported = 1;
292
0
          subbandDomainSupported = SDM_OFF;
293
0
          break;
294
0
        case DRC_DEC_TEST_QMF_DOMAIN:
295
0
          timeDomainSupported = 0;
296
0
          subbandDomainSupported = SDM_QMF64;
297
0
          break;
298
0
        case DRC_DEC_TEST_STFT_DOMAIN:
299
0
          timeDomainSupported = 0;
300
0
          subbandDomainSupported = SDM_STFT256;
301
0
          break;
302
303
0
        default:
304
0
          timeDomainSupported = 0;
305
0
          subbandDomainSupported = SDM_OFF;
306
19.9k
      }
307
308
19.9k
      dErr = drcDec_GainDecoder_SetCodecDependentParameters(
309
19.9k
          hDrcDec->hGainDec, delayMode, timeDomainSupported,
310
19.9k
          subbandDomainSupported);
311
19.9k
      if (dErr) return DRC_DEC_NOT_OK;
312
19.9k
    }
313
19.9k
  }
314
315
  /* Don't allow changing codecMode if it has already been set. */
316
602k
  if (hDrcDec->codecMode != codecMode) return DRC_DEC_NOT_OK;
317
318
602k
  return DRC_DEC_OK;
319
602k
}
320
321
DRC_DEC_ERROR
322
FDK_drcDec_Init(HANDLE_DRC_DECODER hDrcDec, const int frameSize,
323
151k
                const int sampleRate, const int baseChannelCount) {
324
151k
  DRC_ERROR dErr = DE_OK;
325
151k
  DRCDEC_SELECTION_PROCESS_RETURN sErr = DRCDEC_SELECTION_PROCESS_NO_ERROR;
326
327
151k
  if (hDrcDec == NULL || frameSize == 0 || sampleRate == 0 ||
328
151k
      baseChannelCount == 0)
329
200
    return DRC_DEC_OK; /* return without doing anything */
330
331
151k
  if (hDrcDec->functionalRange & DRC_DEC_SELECTION) {
332
151k
    sErr = drcDec_SelectionProcess_SetParam(
333
151k
        hDrcDec->hSelectionProc, SEL_PROC_BASE_CHANNEL_COUNT,
334
151k
        (FIXP_DBL)baseChannelCount, &(hDrcDec->selProcInputDiff));
335
151k
    if (sErr) return DRC_DEC_NOT_OK;
336
151k
    sErr = drcDec_SelectionProcess_SetParam(
337
151k
        hDrcDec->hSelectionProc, SEL_PROC_SAMPLE_RATE, (FIXP_DBL)sampleRate,
338
151k
        &(hDrcDec->selProcInputDiff));
339
151k
    if (sErr) return DRC_DEC_NOT_OK;
340
151k
  }
341
342
151k
  if (hDrcDec->functionalRange & DRC_DEC_GAIN) {
343
151k
    dErr = drcDec_GainDecoder_SetParam(hDrcDec->hGainDec, GAIN_DEC_FRAME_SIZE,
344
151k
                                       frameSize);
345
151k
    if (dErr) return DRC_DEC_NOT_OK;
346
151k
    dErr = drcDec_GainDecoder_SetParam(hDrcDec->hGainDec, GAIN_DEC_SAMPLE_RATE,
347
151k
                                       sampleRate);
348
151k
    if (dErr) return DRC_DEC_NOT_OK;
349
151k
    dErr = drcDec_GainDecoder_Init(hDrcDec->hGainDec);
350
151k
    if (dErr) return DRC_DEC_NOT_OK;
351
151k
  }
352
353
151k
  hDrcDec->status = DRC_DEC_INITIALIZED;
354
355
151k
  startSelectionProcess(hDrcDec);
356
357
151k
  return DRC_DEC_OK;
358
151k
}
359
360
DRC_DEC_ERROR
361
32.8k
FDK_drcDec_Close(HANDLE_DRC_DECODER* phDrcDec) {
362
32.8k
  HANDLE_DRC_DECODER hDrcDec;
363
364
32.8k
  if (phDrcDec == NULL) {
365
0
    return DRC_DEC_OK;
366
0
  }
367
368
32.8k
  hDrcDec = *phDrcDec;
369
370
32.8k
  if (hDrcDec == NULL) return DRC_DEC_NOT_OPENED;
371
372
32.8k
  if (hDrcDec->functionalRange & DRC_DEC_GAIN) {
373
32.8k
    drcDec_GainDecoder_Close(&(hDrcDec->hGainDec));
374
32.8k
  }
375
376
32.8k
  if (hDrcDec->functionalRange & DRC_DEC_SELECTION) {
377
32.8k
    drcDec_SelectionProcess_Delete(&(hDrcDec->hSelectionProc));
378
32.8k
  }
379
380
32.8k
  FDKfree(*phDrcDec);
381
32.8k
  *phDrcDec = NULL;
382
383
32.8k
  return DRC_DEC_OK;
384
32.8k
}
385
386
DRC_DEC_ERROR
387
FDK_drcDec_SetParam(HANDLE_DRC_DECODER hDrcDec,
388
                    const DRC_DEC_USERPARAM requestType,
389
53.5k
                    const FIXP_DBL requestValue) {
390
53.5k
  DRC_ERROR dErr = DE_OK;
391
53.5k
  DRCDEC_SELECTION_PROCESS_RETURN sErr = DRCDEC_SELECTION_PROCESS_NO_ERROR;
392
53.5k
  int invalidParameter = 0;
393
394
53.5k
  if (hDrcDec == NULL) return DRC_DEC_NOT_OPENED;
395
396
53.5k
  if (hDrcDec->functionalRange & DRC_DEC_GAIN) {
397
53.5k
    switch (requestType) {
398
17.8k
      case DRC_DEC_SAMPLE_RATE:
399
17.8k
        dErr = drcDec_GainDecoder_SetParam(
400
17.8k
            hDrcDec->hGainDec, GAIN_DEC_SAMPLE_RATE, (int)requestValue);
401
17.8k
        if (dErr) return DRC_DEC_PARAM_OUT_OF_RANGE;
402
17.8k
        break;
403
17.8k
      case DRC_DEC_FRAME_SIZE:
404
17.8k
        dErr = drcDec_GainDecoder_SetParam(
405
17.8k
            hDrcDec->hGainDec, GAIN_DEC_FRAME_SIZE, (int)requestValue);
406
17.8k
        if (dErr) return DRC_DEC_PARAM_OUT_OF_RANGE;
407
17.8k
        break;
408
17.8k
      default:
409
17.8k
        invalidParameter |= DRC_DEC_GAIN;
410
53.5k
    }
411
53.5k
  }
412
413
53.5k
  if (hDrcDec->functionalRange & DRC_DEC_SELECTION) {
414
53.5k
    switch (requestType) {
415
0
      case DRC_DEC_BOOST:
416
0
        sErr = drcDec_SelectionProcess_SetParam(hDrcDec->hSelectionProc,
417
0
                                                SEL_PROC_BOOST, requestValue,
418
0
                                                &(hDrcDec->selProcInputDiff));
419
0
        if (sErr) return DRC_DEC_PARAM_OUT_OF_RANGE;
420
0
        break;
421
0
      case DRC_DEC_COMPRESS:
422
0
        sErr = drcDec_SelectionProcess_SetParam(hDrcDec->hSelectionProc,
423
0
                                                SEL_PROC_COMPRESS, requestValue,
424
0
                                                &(hDrcDec->selProcInputDiff));
425
0
        if (sErr) return DRC_DEC_PARAM_OUT_OF_RANGE;
426
0
        break;
427
0
      case DRC_DEC_LOUDNESS_NORMALIZATION_ON:
428
0
        sErr = drcDec_SelectionProcess_SetParam(
429
0
            hDrcDec->hSelectionProc, SEL_PROC_LOUDNESS_NORMALIZATION_ON,
430
0
            requestValue, &(hDrcDec->selProcInputDiff));
431
0
        if (sErr) return DRC_DEC_PARAM_OUT_OF_RANGE;
432
0
        break;
433
17.8k
      case DRC_DEC_TARGET_LOUDNESS:
434
17.8k
        sErr = drcDec_SelectionProcess_SetParam(
435
17.8k
            hDrcDec->hSelectionProc, SEL_PROC_TARGET_LOUDNESS, requestValue,
436
17.8k
            &(hDrcDec->selProcInputDiff));
437
17.8k
        if (sErr) return DRC_DEC_PARAM_OUT_OF_RANGE;
438
17.8k
        break;
439
17.8k
      case DRC_DEC_EFFECT_TYPE:
440
0
        sErr = drcDec_SelectionProcess_SetParam(
441
0
            hDrcDec->hSelectionProc, SEL_PROC_EFFECT_TYPE, requestValue,
442
0
            &(hDrcDec->selProcInputDiff));
443
0
        if (sErr) return DRC_DEC_PARAM_OUT_OF_RANGE;
444
0
        break;
445
0
      case DRC_DEC_DOWNMIX_ID:
446
0
        sErr = drcDec_SelectionProcess_SetParam(
447
0
            hDrcDec->hSelectionProc, SEL_PROC_DOWNMIX_ID, requestValue,
448
0
            &(hDrcDec->selProcInputDiff));
449
0
        if (sErr) return DRC_DEC_PARAM_OUT_OF_RANGE;
450
0
        break;
451
0
      case DRC_DEC_TARGET_CHANNEL_COUNT_REQUESTED:
452
0
        sErr = drcDec_SelectionProcess_SetParam(
453
0
            hDrcDec->hSelectionProc, SEL_PROC_TARGET_CHANNEL_COUNT,
454
0
            requestValue, &(hDrcDec->selProcInputDiff));
455
0
        if (sErr) return DRC_DEC_PARAM_OUT_OF_RANGE;
456
0
        break;
457
0
      case DRC_DEC_BASE_CHANNEL_COUNT:
458
0
        sErr = drcDec_SelectionProcess_SetParam(
459
0
            hDrcDec->hSelectionProc, SEL_PROC_BASE_CHANNEL_COUNT, requestValue,
460
0
            &(hDrcDec->selProcInputDiff));
461
0
        if (sErr) return DRC_DEC_NOT_OK;
462
0
        break;
463
0
      case DRC_DEC_LOUDNESS_MEASUREMENT_METHOD:
464
0
        sErr = drcDec_SelectionProcess_SetParam(
465
0
            hDrcDec->hSelectionProc, SEL_PROC_LOUDNESS_MEASUREMENT_METHOD,
466
0
            requestValue, &(hDrcDec->selProcInputDiff));
467
0
        if (sErr) return DRC_DEC_PARAM_OUT_OF_RANGE;
468
0
        break;
469
0
      case DRC_DEC_ALBUM_MODE:
470
0
        sErr = drcDec_SelectionProcess_SetParam(
471
0
            hDrcDec->hSelectionProc, SEL_PROC_ALBUM_MODE, requestValue,
472
0
            &(hDrcDec->selProcInputDiff));
473
0
        if (sErr) return DRC_DEC_PARAM_OUT_OF_RANGE;
474
0
        break;
475
35.7k
      default:
476
35.7k
        invalidParameter |= DRC_DEC_SELECTION;
477
53.5k
    }
478
53.5k
  }
479
480
53.5k
  if (invalidParameter == hDrcDec->functionalRange)
481
0
    return DRC_DEC_INVALID_PARAM;
482
483
  /* All parameters need a new start of the selection process */
484
53.5k
  startSelectionProcess(hDrcDec);
485
486
53.5k
  return DRC_DEC_OK;
487
53.5k
}
488
489
LONG FDK_drcDec_GetParam(HANDLE_DRC_DECODER hDrcDec,
490
817k
                         const DRC_DEC_USERPARAM requestType) {
491
817k
  if (hDrcDec == NULL) return DRC_DEC_NOT_OPENED;
492
493
817k
  switch (requestType) {
494
0
    case DRC_DEC_BOOST:
495
0
      return (LONG)hDrcDec->selProcOutput.boost;
496
0
    case DRC_DEC_COMPRESS:
497
0
      return (LONG)hDrcDec->selProcOutput.compress;
498
0
    case DRC_DEC_IS_MULTIBAND_DRC_1:
499
0
      return (LONG)bitstreamContainsMultibandDrc(&hDrcDec->uniDrcConfig, 0);
500
0
    case DRC_DEC_IS_MULTIBAND_DRC_2:
501
0
      return (LONG)bitstreamContainsMultibandDrc(&hDrcDec->uniDrcConfig, 0x7F);
502
797k
    case DRC_DEC_IS_ACTIVE: {
503
      /* MPEG-D DRC is considered active (and overrides MPEG-4 DRC), if
504
       * uniDrc payload is present (loudnessInfoSet and/or uniDrcConfig)
505
       * at least one of DRC and Loudness Control is switched on */
506
797k
      int drcOn = drcDec_SelectionProcess_GetParam(
507
797k
          hDrcDec->hSelectionProc, SEL_PROC_DYNAMIC_RANGE_CONTROL_ON);
508
797k
      int lnOn = drcDec_SelectionProcess_GetParam(
509
797k
          hDrcDec->hSelectionProc, SEL_PROC_LOUDNESS_NORMALIZATION_ON);
510
797k
      int uniDrcPayloadPresent =
511
797k
          (hDrcDec->loudnessInfoSet.loudnessInfoCount > 0);
512
797k
      uniDrcPayloadPresent |=
513
797k
          (hDrcDec->loudnessInfoSet.loudnessInfoAlbumCount > 0);
514
797k
      uniDrcPayloadPresent |=
515
797k
          (hDrcDec->uniDrcConfig.drcInstructionsUniDrcCount > 0);
516
797k
      uniDrcPayloadPresent |=
517
797k
          (hDrcDec->uniDrcConfig.downmixInstructionsCount > 0);
518
797k
      return (LONG)(uniDrcPayloadPresent && (drcOn || lnOn));
519
0
    }
520
0
    case DRC_DEC_TARGET_CHANNEL_COUNT_SELECTED:
521
0
      return (LONG)hDrcDec->selProcOutput.targetChannelCount;
522
19.8k
    case DRC_DEC_OUTPUT_LOUDNESS:
523
19.8k
      return (LONG)hDrcDec->selProcOutput.outputLoudness;
524
0
    default:
525
0
      return 0;
526
817k
  }
527
817k
}
528
529
DRC_DEC_ERROR
530
FDK_drcDec_SetInterfaceParameters(HANDLE_DRC_DECODER hDrcDec,
531
0
                                  HANDLE_UNI_DRC_INTERFACE hUniDrcInterface) {
532
0
  return DRC_DEC_UNSUPPORTED_FUNCTION;
533
0
}
534
535
DRC_DEC_ERROR
536
FDK_drcDec_SetSelectionProcessMpeghParameters_simple(
537
    HANDLE_DRC_DECODER hDrcDec, const int groupPresetIdRequested,
538
0
    const int numGroupIdsRequested, const int* groupIdsRequested) {
539
0
  return DRC_DEC_UNSUPPORTED_FUNCTION;
540
0
}
541
542
DRC_DEC_ERROR
543
FDK_drcDec_SetDownmixInstructions(HANDLE_DRC_DECODER hDrcDec,
544
                                  const int numDownmixId, const int* downmixId,
545
                                  const int* targetLayout,
546
0
                                  const int* targetChannelCount) {
547
0
  return DRC_DEC_UNSUPPORTED_FUNCTION;
548
0
}
549
550
void FDK_drcDec_SetSelectionProcessOutput(
551
0
    HANDLE_DRC_DECODER hDrcDec, HANDLE_SEL_PROC_OUTPUT hSelProcOutput) {}
552
553
HANDLE_SEL_PROC_OUTPUT
554
0
FDK_drcDec_GetSelectionProcessOutput(HANDLE_DRC_DECODER hDrcDec) {
555
0
  if (hDrcDec == NULL) return NULL;
556
557
0
  return &(hDrcDec->selProcOutput);
558
0
}
559
560
LONG /* FIXP_DBL, e = 7 */
561
FDK_drcDec_GetGroupLoudness(HANDLE_SEL_PROC_OUTPUT hSelProcOutput,
562
0
                            const int groupID, int* groupLoudnessAvailable) {
563
0
  return (LONG)0;
564
0
}
565
566
void FDK_drcDec_SetChannelGains(HANDLE_DRC_DECODER hDrcDec,
567
                                const int numChannels, const int frameSize,
568
                                FIXP_DBL* channelGainDb, FIXP_DBL* audioBuffer,
569
17.8k
                                const int audioBufferChannelOffset) {
570
17.8k
  int err;
571
572
17.8k
  if (hDrcDec == NULL) return;
573
574
17.8k
  err = drcDec_GainDecoder_SetLoudnessNormalizationGainDb(
575
17.8k
      hDrcDec->hGainDec, hDrcDec->selProcOutput.loudnessNormalizationGainDb);
576
17.8k
  if (err) return;
577
578
17.8k
  drcDec_GainDecoder_SetChannelGains(hDrcDec->hGainDec, numChannels, frameSize,
579
17.8k
                                     channelGainDb, audioBufferChannelOffset,
580
17.8k
                                     audioBuffer);
581
17.8k
}
582
583
DRC_DEC_ERROR
584
FDK_drcDec_ReadUniDrcConfig(HANDLE_DRC_DECODER hDrcDec,
585
375k
                            HANDLE_FDK_BITSTREAM hBitstream) {
586
375k
  DRC_ERROR dErr = DE_OK;
587
588
375k
  if (hDrcDec == NULL) return DRC_DEC_NOT_OPENED;
589
590
375k
  if (hDrcDec->codecMode == DRC_DEC_MPEG_D_USAC) {
591
375k
    dErr = drcDec_readUniDrcConfig(hBitstream, &(hDrcDec->uniDrcConfig));
592
375k
  } else
593
0
    return DRC_DEC_NOT_OK;
594
595
375k
  if (dErr) {
596
    /* clear config, if parsing error occured */
597
113k
    FDKmemclear(&hDrcDec->uniDrcConfig, sizeof(hDrcDec->uniDrcConfig));
598
113k
    hDrcDec->uniDrcConfig.diff = 1;
599
113k
  }
600
601
375k
  startSelectionProcess(hDrcDec);
602
603
375k
  return DRC_DEC_OK;
604
375k
}
605
606
DRC_DEC_ERROR
607
FDK_drcDec_ReadDownmixInstructions_Box(HANDLE_DRC_DECODER hDrcDec,
608
0
                                       HANDLE_FDK_BITSTREAM hBitstream) {
609
0
  DRC_ERROR dErr = DE_OK;
610
611
0
  if (hDrcDec == NULL) return DRC_DEC_NOT_OPENED;
612
613
0
  return DRC_DEC_NOT_OK;
614
615
0
  if (dErr) {
616
    /* clear config, if parsing error occurred */
617
0
    FDKmemclear(&hDrcDec->uniDrcConfig.downmixInstructions,
618
0
                sizeof(hDrcDec->uniDrcConfig.downmixInstructions));
619
0
    hDrcDec->uniDrcConfig.downmixInstructionsCount = 0;
620
0
    hDrcDec->uniDrcConfig.downmixInstructionsCountV0 = 0;
621
0
    hDrcDec->uniDrcConfig.downmixInstructionsCountV1 = 0;
622
0
    hDrcDec->uniDrcConfig.diff = 1;
623
0
  }
624
625
0
  startSelectionProcess(hDrcDec);
626
627
0
  return DRC_DEC_OK;
628
0
}
629
630
DRC_DEC_ERROR
631
FDK_drcDec_ReadUniDrcInstructions_Box(HANDLE_DRC_DECODER hDrcDec,
632
0
                                      HANDLE_FDK_BITSTREAM hBitstream) {
633
0
  DRC_ERROR dErr = DE_OK;
634
635
0
  if (hDrcDec == NULL) return DRC_DEC_NOT_OPENED;
636
637
0
  return DRC_DEC_NOT_OK;
638
639
0
  if (dErr) {
640
    /* clear config, if parsing error occurred */
641
0
    FDKmemclear(&hDrcDec->uniDrcConfig.drcInstructionsUniDrc,
642
0
                sizeof(hDrcDec->uniDrcConfig.drcInstructionsUniDrc));
643
0
    hDrcDec->uniDrcConfig.drcInstructionsUniDrcCount = 0;
644
0
    hDrcDec->uniDrcConfig.drcInstructionsUniDrcCountV0 = 0;
645
0
    hDrcDec->uniDrcConfig.drcInstructionsUniDrcCountV1 = 0;
646
0
    hDrcDec->uniDrcConfig.diff = 1;
647
0
  }
648
649
0
  startSelectionProcess(hDrcDec);
650
651
0
  return DRC_DEC_OK;
652
0
}
653
654
DRC_DEC_ERROR
655
FDK_drcDec_ReadUniDrcCoefficients_Box(HANDLE_DRC_DECODER hDrcDec,
656
0
                                      HANDLE_FDK_BITSTREAM hBitstream) {
657
0
  DRC_ERROR dErr = DE_OK;
658
659
0
  if (hDrcDec == NULL) return DRC_DEC_NOT_OPENED;
660
661
0
  return DRC_DEC_NOT_OK;
662
663
0
  if (dErr) {
664
    /* clear config, if parsing error occurred */
665
0
    FDKmemclear(&hDrcDec->uniDrcConfig.drcCoefficientsUniDrc,
666
0
                sizeof(hDrcDec->uniDrcConfig.drcCoefficientsUniDrc));
667
0
    hDrcDec->uniDrcConfig.drcCoefficientsUniDrcCount = 0;
668
0
    hDrcDec->uniDrcConfig.drcCoefficientsUniDrcCountV0 = 0;
669
0
    hDrcDec->uniDrcConfig.drcCoefficientsUniDrcCountV1 = 0;
670
0
    hDrcDec->uniDrcConfig.diff = 1;
671
0
  }
672
673
0
  startSelectionProcess(hDrcDec);
674
675
0
  return DRC_DEC_OK;
676
0
}
677
678
DRC_DEC_ERROR
679
FDK_drcDec_ReadLoudnessInfoSet(HANDLE_DRC_DECODER hDrcDec,
680
227k
                               HANDLE_FDK_BITSTREAM hBitstream) {
681
227k
  DRC_ERROR dErr = DE_OK;
682
683
227k
  if (hDrcDec == NULL) return DRC_DEC_NOT_OPENED;
684
685
227k
  if (hDrcDec->codecMode == DRC_DEC_MPEG_D_USAC) {
686
227k
    dErr = drcDec_readLoudnessInfoSet(hBitstream, &(hDrcDec->loudnessInfoSet));
687
227k
  } else
688
0
    return DRC_DEC_NOT_OK;
689
690
227k
  if (dErr) {
691
    /* clear config, if parsing error occurred */
692
10.5k
    FDKmemclear(&hDrcDec->loudnessInfoSet, sizeof(hDrcDec->loudnessInfoSet));
693
10.5k
    hDrcDec->loudnessInfoSet.diff = 1;
694
10.5k
  }
695
696
227k
  startSelectionProcess(hDrcDec);
697
698
227k
  return DRC_DEC_OK;
699
227k
}
700
701
DRC_DEC_ERROR
702
FDK_drcDec_ReadLoudnessBox(HANDLE_DRC_DECODER hDrcDec,
703
0
                           HANDLE_FDK_BITSTREAM hBitstream) {
704
0
  DRC_ERROR dErr = DE_OK;
705
706
0
  if (hDrcDec == NULL) return DRC_DEC_NOT_OPENED;
707
708
0
  return DRC_DEC_NOT_OK;
709
710
0
  if (dErr) {
711
    /* clear config, if parsing error occurred */
712
0
    FDKmemclear(&hDrcDec->loudnessInfoSet, sizeof(hDrcDec->loudnessInfoSet));
713
0
    hDrcDec->loudnessInfoSet.diff = 1;
714
0
  }
715
716
0
  startSelectionProcess(hDrcDec);
717
718
0
  return DRC_DEC_OK;
719
0
}
720
721
DRC_DEC_ERROR
722
FDK_drcDec_ReadUniDrcGain(HANDLE_DRC_DECODER hDrcDec,
723
8.97k
                          HANDLE_FDK_BITSTREAM hBitstream) {
724
8.97k
  DRC_ERROR dErr = DE_OK;
725
726
8.97k
  if (hDrcDec == NULL) return DRC_DEC_NOT_OPENED;
727
8.97k
  if (!hDrcDec->status) {
728
0
    return DRC_DEC_OK;
729
0
  }
730
731
8.97k
  dErr = drcDec_readUniDrcGain(
732
8.97k
      hBitstream, &(hDrcDec->uniDrcConfig),
733
8.97k
      drcDec_GainDecoder_GetFrameSize(hDrcDec->hGainDec),
734
8.97k
      drcDec_GainDecoder_GetDeltaTminDefault(hDrcDec->hGainDec),
735
8.97k
      &(hDrcDec->uniDrcGain));
736
8.97k
  if (dErr) return DRC_DEC_NOT_OK;
737
738
8.73k
  if (_getGainStatus(&(hDrcDec->uniDrcGain))) {
739
8.29k
    hDrcDec->status = DRC_DEC_NEW_GAIN_PAYLOAD;
740
8.29k
  }
741
742
8.73k
  return DRC_DEC_OK;
743
8.97k
}
744
745
DRC_DEC_ERROR
746
FDK_drcDec_ReadUniDrc(HANDLE_DRC_DECODER hDrcDec,
747
0
                      HANDLE_FDK_BITSTREAM hBitstream) {
748
0
  DRC_ERROR dErr = DE_OK;
749
750
0
  if (hDrcDec == NULL) return DRC_DEC_NOT_OPENED;
751
0
  if (!hDrcDec->status) return DRC_DEC_NOT_READY;
752
753
0
  dErr = drcDec_readUniDrc(
754
0
      hBitstream, &(hDrcDec->uniDrcConfig), &(hDrcDec->loudnessInfoSet),
755
0
      drcDec_GainDecoder_GetFrameSize(hDrcDec->hGainDec),
756
0
      drcDec_GainDecoder_GetDeltaTminDefault(hDrcDec->hGainDec),
757
0
      &(hDrcDec->uniDrcGain));
758
759
0
  startSelectionProcess(hDrcDec);
760
0
  if (dErr) return DRC_DEC_NOT_OK;
761
762
0
  if (_getGainStatus(&(hDrcDec->uniDrcGain))) {
763
0
    hDrcDec->status = DRC_DEC_NEW_GAIN_PAYLOAD;
764
0
  }
765
766
0
  return DRC_DEC_OK;
767
0
}
768
769
DRC_DEC_ERROR
770
17.8k
FDK_drcDec_Preprocess(HANDLE_DRC_DECODER hDrcDec) {
771
17.8k
  DRC_ERROR dErr = DE_OK;
772
773
17.8k
  if (hDrcDec == NULL) return DRC_DEC_NOT_OPENED;
774
17.8k
  if (!hDrcDec->status) return DRC_DEC_NOT_READY;
775
17.8k
  if (!(hDrcDec->functionalRange & DRC_DEC_GAIN)) return DRC_DEC_NOT_OK;
776
777
17.8k
  if (hDrcDec->status != DRC_DEC_NEW_GAIN_PAYLOAD) {
778
    /* no new gain payload was read, e.g. during concalment or flushing.
779
       Generate DRC gains based on the stored DRC gains of last frames */
780
8.90k
    drcDec_GainDecoder_Conceal(hDrcDec->hGainDec, &(hDrcDec->uniDrcConfig),
781
8.90k
                               &(hDrcDec->uniDrcGain));
782
8.90k
  }
783
784
17.8k
  dErr = drcDec_GainDecoder_Preprocess(
785
17.8k
      hDrcDec->hGainDec, &(hDrcDec->uniDrcGain),
786
17.8k
      hDrcDec->selProcOutput.loudnessNormalizationGainDb,
787
17.8k
      hDrcDec->selProcOutput.boost, hDrcDec->selProcOutput.compress);
788
17.8k
  if (dErr) return DRC_DEC_NOT_OK;
789
16.9k
  hDrcDec->status = DRC_DEC_INTERPOLATION_PREPARED;
790
791
16.9k
  return DRC_DEC_OK;
792
17.8k
}
793
794
DRC_DEC_ERROR
795
FDK_drcDec_ProcessTime(HANDLE_DRC_DECODER hDrcDec, const int delaySamples,
796
                       const DRC_DEC_LOCATION drcLocation,
797
                       const int channelOffset, const int drcChannelOffset,
798
                       const int numChannelsProcessed, FIXP_DBL* realBuffer,
799
35.7k
                       const int timeDataChannelOffset) {
800
35.7k
  DRC_ERROR dErr = DE_OK;
801
802
35.7k
  if (hDrcDec == NULL) return DRC_DEC_NOT_OPENED;
803
35.7k
  if (!(hDrcDec->functionalRange & DRC_DEC_GAIN)) return DRC_DEC_NOT_OK;
804
35.7k
  if (hDrcDec->status != DRC_DEC_INTERPOLATION_PREPARED)
805
1.87k
    return DRC_DEC_NOT_READY;
806
807
33.8k
  dErr = drcDec_GainDecoder_ProcessTimeDomain(
808
33.8k
      hDrcDec->hGainDec, delaySamples, (GAIN_DEC_LOCATION)drcLocation,
809
33.8k
      channelOffset, drcChannelOffset, numChannelsProcessed,
810
33.8k
      timeDataChannelOffset, realBuffer);
811
33.8k
  if (dErr) return DRC_DEC_NOT_OK;
812
813
32.1k
  return DRC_DEC_OK;
814
33.8k
}
815
816
DRC_DEC_ERROR
817
FDK_drcDec_ProcessFreq(HANDLE_DRC_DECODER hDrcDec, const int delaySamples,
818
                       const DRC_DEC_LOCATION drcLocation,
819
                       const int channelOffset, const int drcChannelOffset,
820
                       const int numChannelsProcessed,
821
                       const int processSingleTimeslot, FIXP_DBL** realBuffer,
822
0
                       FIXP_DBL** imagBuffer) {
823
0
  DRC_ERROR dErr = DE_OK;
824
825
0
  if (hDrcDec == NULL) return DRC_DEC_NOT_OPENED;
826
0
  if (!(hDrcDec->functionalRange & DRC_DEC_GAIN)) return DRC_DEC_NOT_OK;
827
0
  if (hDrcDec->status != DRC_DEC_INTERPOLATION_PREPARED)
828
0
    return DRC_DEC_NOT_READY;
829
830
0
  dErr = drcDec_GainDecoder_ProcessSubbandDomain(
831
0
      hDrcDec->hGainDec, delaySamples, (GAIN_DEC_LOCATION)drcLocation,
832
0
      channelOffset, drcChannelOffset, numChannelsProcessed,
833
0
      processSingleTimeslot, realBuffer, imagBuffer);
834
0
  if (dErr) return DRC_DEC_NOT_OK;
835
836
0
  return DRC_DEC_OK;
837
0
}
838
839
DRC_DEC_ERROR
840
FDK_drcDec_ApplyDownmix(HANDLE_DRC_DECODER hDrcDec, int* reverseInChannelMap,
841
                        int* reverseOutChannelMap, FIXP_DBL* realBuffer,
842
17.8k
                        int* pNChannels) {
843
17.8k
  SEL_PROC_OUTPUT* pSelProcOutput = &(hDrcDec->selProcOutput);
844
17.8k
  int baseChCnt = pSelProcOutput->baseChannelCount;
845
17.8k
  int targetChCnt = pSelProcOutput->targetChannelCount;
846
17.8k
  int frameSize, n, ic, oc;
847
17.8k
  FIXP_DBL tmp_out[8];
848
17.8k
  FIXP_DBL* audioChannels[8];
849
850
17.8k
  if (hDrcDec == NULL) return DRC_DEC_NOT_OPENED;
851
17.8k
  if (!(hDrcDec->functionalRange & DRC_DEC_GAIN)) return DRC_DEC_NOT_OK;
852
853
  /* only downmix is performed here, no upmix.
854
     Downmix is only performed if downmix coefficients are provided.
855
     All other cases of downmix and upmix are treated by pcmDmx library. */
856
17.8k
  if (pSelProcOutput->downmixMatrixPresent == 0)
857
17.8k
    return DRC_DEC_OK;                             /* no downmix */
858
0
  if (targetChCnt >= baseChCnt) return DRC_DEC_OK; /* downmix only */
859
860
  /* sanity checks */
861
0
  if (realBuffer == NULL) return DRC_DEC_NOT_OK;
862
0
  if (reverseInChannelMap == NULL) return DRC_DEC_NOT_OK;
863
0
  if (reverseOutChannelMap == NULL) return DRC_DEC_NOT_OK;
864
0
  if (baseChCnt > 8) return DRC_DEC_NOT_OK;
865
0
  if (baseChCnt != *pNChannels) return DRC_DEC_NOT_OK;
866
0
  if (targetChCnt > 8) return DRC_DEC_NOT_OK;
867
868
0
  frameSize = drcDec_GainDecoder_GetFrameSize(hDrcDec->hGainDec);
869
870
0
  for (ic = 0; ic < baseChCnt; ic++) {
871
0
    audioChannels[ic] = &(realBuffer[ic * frameSize]);
872
0
  }
873
874
  /* in-place downmix */
875
0
  for (n = 0; n < frameSize; n++) {
876
0
    for (oc = 0; oc < targetChCnt; oc++) {
877
0
      tmp_out[oc] = (FIXP_DBL)0;
878
0
      for (ic = 0; ic < baseChCnt; ic++) {
879
0
        tmp_out[oc] +=
880
0
            fMultDiv2(audioChannels[ic][n],
881
0
                      pSelProcOutput->downmixMatrix[reverseInChannelMap[ic]]
882
0
                                                   [reverseOutChannelMap[oc]])
883
0
            << 3;
884
0
      }
885
0
    }
886
0
    for (oc = 0; oc < targetChCnt; oc++) {
887
0
      if (oc >= baseChCnt) break;
888
0
      audioChannels[oc][n] = tmp_out[oc];
889
0
    }
890
0
  }
891
892
0
  for (oc = targetChCnt; oc < baseChCnt; oc++) {
893
0
    FDKmemset(audioChannels[oc], 0, frameSize * sizeof(FIXP_DBL));
894
0
  }
895
896
0
  *pNChannels = targetChCnt;
897
898
0
  return DRC_DEC_OK;
899
0
}
900
901
/* Get library info for this module. */
902
DRC_DEC_ERROR
903
0
FDK_drcDec_GetLibInfo(LIB_INFO* info) {
904
0
  int i;
905
906
0
  if (info == NULL) {
907
0
    return DRC_DEC_INVALID_PARAM;
908
0
  }
909
910
  /* Search for next free tab */
911
0
  for (i = 0; i < FDK_MODULE_LAST; i++) {
912
0
    if (info[i].module_id == FDK_NONE) break;
913
0
  }
914
0
  if (i == FDK_MODULE_LAST) {
915
0
    return DRC_DEC_NOT_OK;
916
0
  }
917
918
  /* Add the library info */
919
0
  info[i].module_id = FDK_UNIDRCDEC;
920
0
  info[i].version = LIB_VERSION(DRCDEC_LIB_VL0, DRCDEC_LIB_VL1, DRCDEC_LIB_VL2);
921
0
  LIB_VERSION_STRING(info + i);
922
0
  info[i].build_date = DRCDEC_LIB_BUILD_DATE;
923
0
  info[i].build_time = DRCDEC_LIB_BUILD_TIME;
924
0
  info[i].title = DRCDEC_LIB_TITLE;
925
926
0
  return DRC_DEC_OK;
927
0
}