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1 /*
2  * Copyright (C) 2004-2010 NXP Software
3  * Copyright (C) 2010 The Android Open Source Project
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 /*  Includes                                                                            */
21 /*                                                                                      */
22 /****************************************************************************************/
23 #include "LVREV_Private.h"
24 #include "Filter.h"
25 
26 /****************************************************************************************/
27 /*                                                                                      */
28 /* FUNCTION:                LVREV_ApplyNewSettings                                      */
29 /*                                                                                      */
30 /* DESCRIPTION:                                                                         */
31 /*  Applies the new control parameters                                                  */
32 /*                                                                                      */
33 /* PARAMETERS:                                                                          */
34 /*  pPrivate                Pointer to the instance private parameters                  */
35 /*                                                                                      */
36 /* RETURNS:                                                                             */
37 /*  LVREV_Success           Succeeded                                                   */
38 /*  LVREV_NULLADDRESS       When pPrivate is NULL                                       */
39 /*                                                                                      */
40 /* NOTES:                                                                               */
41 /*                                                                                      */
42 /****************************************************************************************/
43 
LVREV_ApplyNewSettings(LVREV_Instance_st * pPrivate)44 LVREV_ReturnStatus_en LVREV_ApplyNewSettings (LVREV_Instance_st     *pPrivate)
45 {
46 
47     LVM_Mode_en  OperatingMode;
48     LVM_INT32    NumberOfDelayLines;
49 
50 
51     /* Check for NULL pointer */
52     if(pPrivate == LVM_NULL)
53     {
54         return LVREV_NULLADDRESS;
55     }
56 
57     OperatingMode = pPrivate->NewParams.OperatingMode;
58 
59     if(pPrivate->InstanceParams.NumDelays == LVREV_DELAYLINES_4)
60     {
61         NumberOfDelayLines = 4;
62     }
63     else if(pPrivate->InstanceParams.NumDelays == LVREV_DELAYLINES_2)
64     {
65         NumberOfDelayLines = 2;
66     }
67     else
68     {
69         NumberOfDelayLines = 1;
70     }
71 
72     /*
73      * Update the high pass filter coefficients
74      */
75     if((pPrivate->NewParams.HPF        != pPrivate->CurrentParams.HPF)        ||
76        (pPrivate->NewParams.SampleRate != pPrivate->CurrentParams.SampleRate) ||
77        (pPrivate->bFirstControl        == LVM_TRUE))
78     {
79         LVM_INT32       Omega;
80         FO_C32_Coefs_t  Coeffs;
81 
82         Omega = LVM_GetOmega(pPrivate->NewParams.HPF, pPrivate->NewParams.SampleRate);
83         LVM_FO_HPF(Omega, &Coeffs);
84         FO_1I_D32F32Cll_TRC_WRA_01_Init( &pPrivate->pFastCoef->HPCoefs, &pPrivate->pFastData->HPTaps, &Coeffs);
85         LoadConst_32(0,
86             (void *)&pPrivate->pFastData->HPTaps, /* Destination Cast to void: no dereferencing in function*/
87             sizeof(Biquad_1I_Order1_Taps_t)/sizeof(LVM_INT32));
88     }
89 
90 
91     /*
92      * Update the low pass filter coefficients
93      */
94     if((pPrivate->NewParams.LPF        != pPrivate->CurrentParams.LPF)        ||
95        (pPrivate->NewParams.SampleRate != pPrivate->CurrentParams.SampleRate) ||
96        (pPrivate->bFirstControl        == LVM_TRUE))
97     {
98         LVM_INT32       Omega;
99         FO_C32_Coefs_t  Coeffs;
100 
101 
102         Coeffs.A0 = 0x7FFFFFFF;
103         Coeffs.A1 = 0;
104         Coeffs.B1 = 0;
105         if(pPrivate->NewParams.LPF <= (LVM_FsTable[pPrivate->NewParams.SampleRate] >> 1))
106         {
107             Omega = LVM_GetOmega(pPrivate->NewParams.LPF, pPrivate->NewParams.SampleRate);
108 
109             /*
110              * Do not apply filter if w =2*pi*fc/fs >= 2.9
111              */
112             if(Omega<=LVREV_2_9_INQ29)
113             {
114                 LVM_FO_LPF(Omega, &Coeffs);
115             }
116         }
117         FO_1I_D32F32Cll_TRC_WRA_01_Init( &pPrivate->pFastCoef->LPCoefs, &pPrivate->pFastData->LPTaps, &Coeffs);
118         LoadConst_32(0,
119             (void *)&pPrivate->pFastData->LPTaps,        /* Destination Cast to void: no dereferencing in function*/
120             sizeof(Biquad_1I_Order1_Taps_t)/sizeof(LVM_INT32));
121     }
122 
123 
124     /*
125      * Calculate the room size parameter
126      */
127     if( pPrivate->NewParams.RoomSize != pPrivate->CurrentParams.RoomSize)
128     {
129         /* Room size range is 10ms to 200ms
130          * 0%   -- 10ms
131          * 50%  -- 65ms
132          * 100% -- 120ms
133          */
134         pPrivate->RoomSizeInms = 10 + (((pPrivate->NewParams.RoomSize*11) + 5)/10);
135     }
136 
137 
138     /*
139      * Update the T delay number of samples and the all pass delay number of samples
140      */
141     if( (pPrivate->NewParams.RoomSize   != pPrivate->CurrentParams.RoomSize)   ||
142         (pPrivate->NewParams.SampleRate != pPrivate->CurrentParams.SampleRate) ||
143         (pPrivate->bFirstControl        == LVM_TRUE))
144     {
145 
146         LVM_UINT32  Temp;
147         LVM_INT32   APDelaySize;
148         LVM_INT32   Fs = LVM_GetFsFromTable(pPrivate->NewParams.SampleRate);
149         LVM_UINT32  DelayLengthSamples = (LVM_UINT32)(Fs * pPrivate->RoomSizeInms);
150         LVM_INT16   i;
151         LVM_INT16   ScaleTable[]  = {LVREV_T_3_Power_minus0_on_4, LVREV_T_3_Power_minus1_on_4, LVREV_T_3_Power_minus2_on_4, LVREV_T_3_Power_minus3_on_4};
152         LVM_INT16   MaxT_Delay[]  = {LVREV_MAX_T0_DELAY, LVREV_MAX_T1_DELAY, LVREV_MAX_T2_DELAY, LVREV_MAX_T3_DELAY};
153         LVM_INT16   MaxAP_Delay[] = {LVREV_MAX_AP0_DELAY, LVREV_MAX_AP1_DELAY, LVREV_MAX_AP2_DELAY, LVREV_MAX_AP3_DELAY};
154 
155 
156         /*
157          * For each delay line
158          */
159         for (i=0; i<NumberOfDelayLines; i++)
160         {
161             if (i != 0)
162             {
163                 LVM_INT32 Temp1;  /* to avoid QAC warning on type conversion */
164                 LVM_INT32 Temp2;  /* to avoid QAC warning on type conversion */
165 
166                 Temp2=(LVM_INT32)DelayLengthSamples;
167                 MUL32x16INTO32(Temp2, ScaleTable[i], Temp1, 15)
168                 Temp=(LVM_UINT32)Temp1;
169             }
170             else
171             {
172                Temp = DelayLengthSamples;
173             }
174             APDelaySize = Temp  / 1500;
175 
176 
177             /*
178              * Set the fixed delay
179              */
180             Temp                  = (MaxT_Delay[i] - MaxAP_Delay[i]) * Fs / 48000;
181             pPrivate->Delay_AP[i] = pPrivate->T[i] - Temp;
182 
183 
184             /*
185              * Set the tap selection
186              */
187             if (pPrivate->AB_Selection)
188             {
189                 /* Smooth from tap A to tap B */
190                 pPrivate->pOffsetB[i]             = &pPrivate->pDelay_T[i][pPrivate->T[i] - Temp - APDelaySize];
191                 pPrivate->B_DelaySize[i]          = APDelaySize;
192                 pPrivate->Mixer_APTaps[i].Target1 = 0;
193                 pPrivate->Mixer_APTaps[i].Target2 = 0x7fffffff;
194             }
195             else
196             {
197                 /* Smooth from tap B to tap A */
198                 pPrivate->pOffsetA[i]             = &pPrivate->pDelay_T[i][pPrivate->T[i] - Temp - APDelaySize];
199                 pPrivate->A_DelaySize[i]          = APDelaySize;
200                 pPrivate->Mixer_APTaps[i].Target2 = 0;
201                 pPrivate->Mixer_APTaps[i].Target1 = 0x7fffffff;
202             }
203 
204             /*
205              * Set the maximum block size to the smallest delay size
206              */
207             pPrivate->MaxBlkLen   = Temp;
208             if (pPrivate->MaxBlkLen > pPrivate->A_DelaySize[i])
209             {
210                 pPrivate->MaxBlkLen = pPrivate->A_DelaySize[i];
211             }
212             if (pPrivate->MaxBlkLen > pPrivate->B_DelaySize[i])
213             {
214                 pPrivate->MaxBlkLen = pPrivate->B_DelaySize[i];
215             }
216         }
217         if (pPrivate->AB_Selection)
218         {
219             pPrivate->AB_Selection = 0;
220         }
221         else
222         {
223             pPrivate->AB_Selection = 1;
224         }
225 
226 
227         /*
228          * Limit the maximum block length
229          */
230         pPrivate->MaxBlkLen=pPrivate->MaxBlkLen-2;                                  /* Just as a precausion, but no problem if we remove this line      */
231         if(pPrivate->MaxBlkLen > pPrivate->InstanceParams.MaxBlockSize)
232         {
233             pPrivate->MaxBlkLen = (LVM_INT32)pPrivate->InstanceParams.MaxBlockSize;
234         }
235     }
236 
237 
238     /*
239      * Update the low pass filter coefficient
240      */
241     if( (pPrivate->NewParams.Damping    != pPrivate->CurrentParams.Damping)    ||
242         (pPrivate->NewParams.SampleRate != pPrivate->CurrentParams.SampleRate) ||
243         (pPrivate->bFirstControl        == LVM_TRUE))
244     {
245 
246         LVM_INT32       Temp;
247         LVM_INT32       Omega;
248         FO_C32_Coefs_t  Coeffs;
249         LVM_INT16       i;
250         LVM_INT16       Damping      = (LVM_INT16)((pPrivate->NewParams.Damping * 100) + 1000);
251         LVM_INT32       ScaleTable[] = {LVREV_T_3_Power_0_on_4, LVREV_T_3_Power_1_on_4, LVREV_T_3_Power_2_on_4, LVREV_T_3_Power_3_on_4};
252 
253 
254         /*
255          * For each filter
256          */
257         for (i=0; i<NumberOfDelayLines; i++)
258         {
259             if (i != 0)
260             {
261                 MUL32x16INTO32(ScaleTable[i], Damping, Temp, 15)
262             }
263             else
264             {
265                 Temp = Damping;
266             }
267             if(Temp <= (LVM_FsTable[pPrivate->NewParams.SampleRate] >> 1))
268             {
269                 Omega = LVM_GetOmega((LVM_UINT16)Temp, pPrivate->NewParams.SampleRate);
270                 LVM_FO_LPF(Omega, &Coeffs);
271             }
272             else
273             {
274                 Coeffs.A0 = 0x7FF00000;
275                 Coeffs.A1 = 0;
276                 Coeffs.B1 = 0;
277             }
278             FO_1I_D32F32Cll_TRC_WRA_01_Init(&pPrivate->pFastCoef->RevLPCoefs[i], &pPrivate->pFastData->RevLPTaps[i], &Coeffs);
279         }
280     }
281 
282 
283     /*
284      * Update All-pass filter mixer time constants
285      */
286     if( (pPrivate->NewParams.RoomSize   != pPrivate->CurrentParams.RoomSize)   ||
287         (pPrivate->NewParams.SampleRate != pPrivate->CurrentParams.SampleRate) ||
288         (pPrivate->NewParams.Density    != pPrivate->CurrentParams.Density))
289     {
290         LVM_INT16   i;
291         LVM_INT32   Alpha    = (LVM_INT32)LVM_Mixer_TimeConstant(LVREV_ALLPASS_TC, LVM_GetFsFromTable(pPrivate->NewParams.SampleRate), 1);
292         LVM_INT32   AlphaTap = (LVM_INT32)LVM_Mixer_TimeConstant(LVREV_ALLPASS_TAP_TC, LVM_GetFsFromTable(pPrivate->NewParams.SampleRate), 1);
293 
294         for (i=0; i<4; i++)
295         {
296             pPrivate->Mixer_APTaps[i].Alpha1       = AlphaTap;
297             pPrivate->Mixer_APTaps[i].Alpha2       = AlphaTap;
298             pPrivate->Mixer_SGFeedback[i].Alpha    = Alpha;
299             pPrivate->Mixer_SGFeedforward[i].Alpha = Alpha;
300         }
301     }
302 
303 
304     /*
305      * Update the feed back gain
306      */
307     if( (pPrivate->NewParams.RoomSize   != pPrivate->CurrentParams.RoomSize)   ||
308         (pPrivate->NewParams.SampleRate != pPrivate->CurrentParams.SampleRate) ||
309         (pPrivate->NewParams.T60        != pPrivate->CurrentParams.T60)        ||
310         (pPrivate->bFirstControl        == LVM_TRUE))
311     {
312 
313         LVM_INT32               G[4];                       /* Feedback gain (Q7.24) */
314 
315         if(pPrivate->NewParams.T60 == 0)
316         {
317             G[3] = 0;
318             G[2] = 0;
319             G[1] = 0;
320             G[0] = 0;
321         }
322         else
323         {
324             LVM_INT32   Temp1;
325             LVM_INT32   Temp2;
326             LVM_INT16   i;
327             LVM_INT16   ScaleTable[] = {LVREV_T_3_Power_minus0_on_4, LVREV_T_3_Power_minus1_on_4, LVREV_T_3_Power_minus2_on_4, LVREV_T_3_Power_minus3_on_4};
328 
329 
330             /*
331              * For each delay line
332              */
333             for (i=0; i<NumberOfDelayLines; i++)
334             {
335                 Temp1 = (3 * pPrivate->RoomSizeInms * ScaleTable[i]) / pPrivate->NewParams.T60;
336                 if(Temp1 >= (4 << 15))
337                 {
338                     G[i] = 0;
339                 }
340                 else if((Temp1 >= (2 << 15)))
341                 {
342                     Temp2 = LVM_Power10(-(Temp1 << 14));
343                     Temp1 = LVM_Power10(-(Temp1 << 14));
344                     MUL32x32INTO32(Temp1,Temp2,Temp1,24)
345                 }
346                 else
347                 {
348                     Temp1 = LVM_Power10(-(Temp1 << 15));
349                 }
350                 if (NumberOfDelayLines == 1)
351                 {
352                     G[i] = Temp1;
353                 }
354                 else
355                 {
356                     LVM_INT32   TempG;
357                     MUL32x16INTO32(Temp1,ONE_OVER_SQRT_TWO,TempG,15)
358                     G[i]=TempG;
359                 }
360             }
361         }
362 
363         /* Set up the feedback mixers for four delay lines */
364         pPrivate->FeedbackMixer[0].Target=G[0]<<7;
365         pPrivate->FeedbackMixer[1].Target=G[1]<<7;
366         pPrivate->FeedbackMixer[2].Target=G[2]<<7;
367         pPrivate->FeedbackMixer[3].Target=G[3]<<7;
368     }
369 
370 
371     /*
372      * Calculate the gain correction
373      */
374     if((pPrivate->NewParams.RoomSize != pPrivate->CurrentParams.RoomSize) ||
375        (pPrivate->NewParams.Level    != pPrivate->CurrentParams.Level)    ||
376        (pPrivate->NewParams.T60      != pPrivate->CurrentParams.T60) )
377     {
378         LVM_INT32 Index=0;
379         LVM_INT32 i=0;
380         LVM_INT32 Gain=0;
381         LVM_INT32 RoomSize=0;
382         LVM_INT32 T60;
383         LVM_INT32 Coefs[5];
384 
385         if(pPrivate->NewParams.RoomSize==0)
386         {
387             RoomSize=1;
388         }
389         else
390         {
391             RoomSize=(LVM_INT32)pPrivate->NewParams.RoomSize;
392         }
393 
394         if(pPrivate->NewParams.T60<100)
395         {
396             T60 = 100 * LVREV_T60_SCALE;
397         }
398         else
399         {
400             T60 = pPrivate->NewParams.T60 * LVREV_T60_SCALE;
401         }
402 
403         /* Find the nearest room size in table */
404         for(i=0;i<24;i++)
405         {
406             if(RoomSize<= LVREV_GainPolyTable[i][0])
407             {
408                 Index=i;
409                 break;
410             }
411         }
412 
413 
414         if(RoomSize==LVREV_GainPolyTable[Index][0])
415         {
416             /* Take table values if the room size is in table */
417             for(i=1;i<5;i++)
418             {
419                 Coefs[i-1]=LVREV_GainPolyTable[Index][i];
420             }
421             Coefs[4]=0;
422             Gain=LVM_Polynomial(3,Coefs,T60);       /* Q.24 result */
423         }
424         else
425         {
426             /* Interpolate the gain between nearest room sizes */
427 
428             LVM_INT32 Gain1,Gain2;
429             LVM_INT32 Tot_Dist,Dist;
430 
431             Tot_Dist=LVREV_GainPolyTable[Index][0]-LVREV_GainPolyTable[Index-1][0];
432             Dist=RoomSize-LVREV_GainPolyTable[Index-1][0];
433 
434 
435             /* Get gain for first */
436             for(i=1;i<5;i++)
437             {
438                 Coefs[i-1]=LVREV_GainPolyTable[Index-1][i];
439             }
440             Coefs[4]=0;
441 
442             Gain1=LVM_Polynomial(3,Coefs,T60);      /* Q.24 result */
443 
444             /* Get gain for second */
445             for(i=1;i<5;i++)
446             {
447                 Coefs[i-1]=LVREV_GainPolyTable[Index][i];
448             }
449             Coefs[4]=0;
450 
451             Gain2=LVM_Polynomial(3,Coefs,T60);      /* Q.24 result */
452 
453             /* Linear Interpolate the gain */
454             Gain = Gain1+ (((Gain2-Gain1)*Dist)/(Tot_Dist));
455         }
456 
457 
458         /*
459          * Get the inverse of gain: Q.15
460          * Gain is mostly above one except few cases, take only gains above 1
461          */
462         if(Gain < 16777216L)
463         {
464             pPrivate->Gain= 32767;
465         }
466         else
467         {
468             pPrivate->Gain=(LVM_INT16)(LVM_MAXINT_32/(Gain>>8));
469         }
470 
471 
472         Index=((32767*100)/(100+pPrivate->NewParams.Level));
473         pPrivate->Gain=(LVM_INT16)((pPrivate->Gain*Index)>>15);
474         pPrivate->GainMixer.Target = pPrivate->Gain*Index;
475     }
476 
477 
478     /*
479      * Update the all pass comb filter coefficient
480      */
481     if( (pPrivate->NewParams.Density != pPrivate->CurrentParams.Density) ||
482         (pPrivate->bFirstControl     == LVM_TRUE))
483     {
484         LVM_INT16   i;
485         LVM_INT32   b = pPrivate->NewParams.Density * LVREV_B_8_on_1000;
486 
487         for (i=0;i<4; i++)
488         {
489             pPrivate->Mixer_SGFeedback[i].Target    = b;
490             pPrivate->Mixer_SGFeedforward[i].Target = b;
491         }
492     }
493 
494 
495     /*
496      * Update the bypass mixer time constant
497      */
498     if((pPrivate->NewParams.SampleRate   != pPrivate->CurrentParams.SampleRate)   ||
499        (pPrivate->bFirstControl          == LVM_TRUE))
500     {
501         LVM_UINT16   NumChannels = 1;                       /* Assume MONO format */
502         LVM_INT32    Alpha;
503 
504         Alpha = (LVM_INT32)LVM_Mixer_TimeConstant(LVREV_FEEDBACKMIXER_TC, LVM_GetFsFromTable(pPrivate->NewParams.SampleRate), NumChannels);
505         pPrivate->FeedbackMixer[0].Alpha=Alpha;
506         pPrivate->FeedbackMixer[1].Alpha=Alpha;
507         pPrivate->FeedbackMixer[2].Alpha=Alpha;
508         pPrivate->FeedbackMixer[3].Alpha=Alpha;
509 
510         NumChannels = 2;                                    /* Always stereo output */
511         pPrivate->BypassMixer.Alpha1 = (LVM_INT32)LVM_Mixer_TimeConstant(LVREV_BYPASSMIXER_TC, LVM_GetFsFromTable(pPrivate->NewParams.SampleRate), NumChannels);
512         pPrivate->BypassMixer.Alpha2 = pPrivate->BypassMixer.Alpha1;
513         pPrivate->GainMixer.Alpha    = pPrivate->BypassMixer.Alpha1;
514     }
515 
516 
517     /*
518      * Update the bypass mixer targets
519      */
520     if( (pPrivate->NewParams.Level != pPrivate->CurrentParams.Level) &&
521         (pPrivate->NewParams.OperatingMode == LVM_MODE_ON))
522     {
523         pPrivate->BypassMixer.Target2 = ((LVM_INT32)(pPrivate->NewParams.Level * 32767)/100)<<16;
524         pPrivate->BypassMixer.Target1 = 0x00000000;
525         if ((pPrivate->NewParams.Level == 0) && (pPrivate->bFirstControl == LVM_FALSE))
526         {
527             pPrivate->BypassMixer.CallbackSet2 = LVM_TRUE;
528         }
529         if (pPrivate->NewParams.Level != 0)
530         {
531             pPrivate->bDisableReverb = LVM_FALSE;
532         }
533     }
534 
535     if(pPrivate->NewParams.OperatingMode != pPrivate->CurrentParams.OperatingMode)
536     {
537         if(pPrivate->NewParams.OperatingMode == LVM_MODE_ON)
538         {
539             pPrivate->BypassMixer.Target2 = ((LVM_INT32)(pPrivate->NewParams.Level * 32767)/100)<<16;
540             pPrivate->BypassMixer.Target1 = 0x00000000;
541 
542             pPrivate->BypassMixer.CallbackSet2 = LVM_FALSE;
543             OperatingMode                      = LVM_MODE_ON;
544             if (pPrivate->NewParams.Level == 0)
545             {
546                 pPrivate->bDisableReverb = LVM_TRUE;
547             }
548             else
549             {
550                 pPrivate->bDisableReverb = LVM_FALSE;
551             }
552         }
553         else if (pPrivate->bFirstControl == LVM_FALSE)
554         {
555             pPrivate->BypassMixer.Target2 = 0x00000000;
556             pPrivate->BypassMixer.Target1 = 0x00000000;
557             pPrivate->BypassMixer.CallbackSet2 = LVM_TRUE;
558             pPrivate->GainMixer.Target    = 0x03FFFFFF;
559             OperatingMode = LVM_MODE_ON;
560         }
561         else
562         {
563             OperatingMode = LVM_MODE_OFF;
564         }
565     }
566 
567 
568     /*
569      * If it is the first call to ApplyNew settings force the current to the target to begin immediate playback of the effect
570      */
571     if(pPrivate->bFirstControl == LVM_TRUE)
572     {
573         pPrivate->BypassMixer.Current1 = pPrivate->BypassMixer.Target1;
574         pPrivate->BypassMixer.Current2 = pPrivate->BypassMixer.Target2;
575     }
576 
577 
578     /*
579      * Copy the new parameters
580      */
581     pPrivate->CurrentParams = pPrivate->NewParams;
582     pPrivate->CurrentParams.OperatingMode = OperatingMode;
583 
584 
585     /*
586      * Update flag
587      */
588     if(pPrivate->bFirstControl == LVM_TRUE)
589     {
590         pPrivate->bFirstControl = LVM_FALSE;
591     }
592 
593 
594     return LVREV_SUCCESS;
595 }
596 
597 
598 /****************************************************************************************/
599 /*                                                                                      */
600 /* FUNCTION:                BypassMixer_Callback                                        */
601 /*                                                                                      */
602 /* DESCRIPTION:                                                                         */
603 /*  Controls the On to Off operating mode transition                                    */
604 /*                                                                                      */
605 /* PARAMETERS:                                                                          */
606 /*  pPrivate                Pointer to the instance private parameters                  */
607 /*                                                                                      */
608 /* RETURNS:                                                                             */
609 /*  LVREV_Success           Succeeded                                                   */
610 /*  LVREV_NULLADDRESS       When pPrivate is NULL                                       */
611 /*                                                                                      */
612 /* NOTES:                                                                               */
613 /*                                                                                      */
614 /****************************************************************************************/
BypassMixer_Callback(void * pCallbackData,void * pGeneralPurpose,LVM_INT16 GeneralPurpose)615 LVM_INT32 BypassMixer_Callback (void *pCallbackData,
616                                 void *pGeneralPurpose,
617                                 LVM_INT16 GeneralPurpose )
618 {
619 
620     LVREV_Instance_st     *pLVREV_Private = (LVREV_Instance_st *)pCallbackData;
621 
622 
623     /*
624      * Avoid build warnings
625      */
626     (void)pGeneralPurpose;
627     (void)GeneralPurpose;
628 
629 
630     /*
631      * Turn off
632      */
633     pLVREV_Private->CurrentParams.OperatingMode = LVM_MODE_OFF;
634     pLVREV_Private->bDisableReverb              = LVM_TRUE;
635     LVREV_ClearAudioBuffers((LVREV_Handle_t)pCallbackData);
636 
637 
638     return 0;
639 }
640 
641 /* End of file */
642 
643