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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#include    "LVPSA.h"
19#include    "LVPSA_Private.h"
20#include    "VectorArithmetic.h"
21
22#define     LOW_FREQ            298             /* 32768/110 for low test frequency */
23#define     HIGH_FREQ           386             /* 32768/85 for high test frequency */
24
25LVPSA_RETURN LVPSA_SetBPFiltersType (  LVPSA_InstancePr_t        *pInst,
26                                       LVPSA_ControlParams_t      *pParams  );
27
28LVPSA_RETURN LVPSA_SetQPFCoefficients( LVPSA_InstancePr_t        *pInst,
29                                       LVPSA_ControlParams_t      *pParams  );
30
31LVPSA_RETURN LVPSA_BPSinglePrecCoefs(  LVM_UINT16             Fs,
32                                       LVPSA_FilterParam_t   *pFilterParams,
33                                       BP_C16_Coefs_t        *pCoefficients);
34
35LVPSA_RETURN LVPSA_BPDoublePrecCoefs(  LVM_UINT16            Fs,
36                                       LVPSA_FilterParam_t  *pFilterParams,
37                                       BP_C32_Coefs_t       *pCoefficients);
38
39LVPSA_RETURN LVPSA_BPDoublePrecCoefs(  LVM_UINT16              Fs,
40                                       LVPSA_FilterParam_t     *pFilterParams,
41                                       BP_C32_Coefs_t          *pCoefficients);
42
43LVPSA_RETURN LVPSA_SetBPFCoefficients( LVPSA_InstancePr_t        *pInst,
44                                       LVPSA_ControlParams_t      *pParams  );
45
46LVPSA_RETURN LVPSA_ClearFilterHistory( LVPSA_InstancePr_t        *pInst);
47
48
49
50
51/************************************************************************************/
52/*                                                                                  */
53/* FUNCTION:            LVPSA_Control                                               */
54/*                                                                                  */
55/* DESCRIPTION:                                                                     */
56/*  Give some new control parameters to the module.                                 */
57/*                                                                                  */
58/* PARAMETERS:                                                                      */
59/*  hInstance           Pointer to the instance                                     */
60/*  NewParams           Structure that contains the new parameters                  */
61/*                                                                                  */
62/* RETURNS:                                                                         */
63/*  LVPSA_OK            Succeeds                                                    */
64/*  otherwise           Error due to bad parameters                                 */
65/*                                                                                  */
66/************************************************************************************/
67LVPSA_RETURN LVPSA_Control           ( pLVPSA_Handle_t             hInstance,
68                                       LVPSA_ControlParams_t      *pNewParams     )
69{
70
71    LVPSA_InstancePr_t     *pLVPSA_Inst    = (LVPSA_InstancePr_t*)hInstance;
72
73    if((hInstance == LVM_NULL) || (pNewParams == LVM_NULL))
74    {
75        return(LVPSA_ERROR_NULLADDRESS);
76    }
77    if(pNewParams->Fs >= LVPSA_NR_SUPPORTED_RATE)
78    {
79        return(LVPSA_ERROR_INVALIDPARAM);
80    }
81    if(pNewParams->LevelDetectionSpeed >= LVPSA_NR_SUPPORTED_SPEED)
82    {
83        return(LVPSA_ERROR_INVALIDPARAM);
84    }
85
86    pLVPSA_Inst->NewParams = *pNewParams;
87    pLVPSA_Inst->bControlPending = LVM_TRUE;
88
89    return(LVPSA_OK);
90}
91
92/************************************************************************************/
93/*                                                                                  */
94/* FUNCTION:            LVPSA_GetControlParams                                      */
95/*                                                                                  */
96/* DESCRIPTION:                                                                     */
97/*  Get the current control parameters of the module                                */
98/*                                                                                  */
99/* PARAMETERS:                                                                      */
100/*  hInstance       Pointer to the instance                                         */
101/*  pParams         Pointer to an empty control structure                           */
102/* RETURNS:                                                                         */
103/*  LVPSA_OK            Succeeds                                                    */
104/*  otherwise           Error due to bad parameters                                 */
105/*                                                                                  */
106/************************************************************************************/
107LVPSA_RETURN LVPSA_GetControlParams         (    pLVPSA_Handle_t            hInstance,
108                                                 LVPSA_ControlParams_t     *pParams )
109{
110    LVPSA_InstancePr_t     *pLVPSA_Inst    = (LVPSA_InstancePr_t*)hInstance;
111
112    if((hInstance == LVM_NULL) || (pParams == LVM_NULL))
113    {
114        return(LVPSA_ERROR_NULLADDRESS);
115    }
116
117    pParams->Fs                     = pLVPSA_Inst->CurrentParams.Fs;
118    pParams->LevelDetectionSpeed    = pLVPSA_Inst->CurrentParams.LevelDetectionSpeed;
119
120    return(LVPSA_OK);
121}
122
123
124/************************************************************************************/
125/*                                                                                  */
126/* FUNCTION:            LVPSA_GetInitParams                                         */
127/*                                                                                  */
128/* DESCRIPTION:                                                                     */
129/*  Get the initialization parameters of the module                                 */
130/*                                                                                  */
131/* PARAMETERS:                                                                      */
132/*  hInstance       Pointer to the instance                                         */
133/*  pParams         Pointer to an empty control structure                           */
134/* RETURNS:                                                                         */
135/*  LVPSA_OK            Succeeds                                                    */
136/*  otherwise           Error due to bad parameters                                 */
137/*                                                                                  */
138/************************************************************************************/
139LVPSA_RETURN LVPSA_GetInitParams         (    pLVPSA_Handle_t            hInstance,
140                                              LVPSA_InitParams_t        *pParams )
141{
142    LVPSA_InstancePr_t     *pLVPSA_Inst    = (LVPSA_InstancePr_t*)hInstance;
143
144    if((hInstance == LVM_NULL) || (pParams == LVM_NULL))
145    {
146        return(LVPSA_ERROR_NULLADDRESS);
147    }
148
149    pParams->SpectralDataBufferDuration   = pLVPSA_Inst->SpectralDataBufferDuration;
150    pParams->MaxInputBlockSize            = pLVPSA_Inst->MaxInputBlockSize;
151    pParams->nBands                       = pLVPSA_Inst->nBands;
152    pParams->pFiltersParams               = pLVPSA_Inst->pFiltersParams;
153
154    return(LVPSA_OK);
155}
156
157
158/************************************************************************************/
159/*                                                                                  */
160/* FUNCTION:            LVPSA_ApplyNewSettings                                      */
161/*                                                                                  */
162/* DESCRIPTION:                                                                     */
163/*  Reinitialize some parameters and changes filters' coefficients if               */
164/*  some control parameters have changed.                                           */
165/*                                                                                  */
166/* PARAMETERS:                                                                      */
167/*  pInst               Pointer to the instance                                     */
168/*                                                                                  */
169/* RETURNS:                                                                         */
170/*  LVPSA_OK            Succeeds                                                    */
171/*  otherwise           Error due to bad parameters                                 */
172/*                                                                                  */
173/* NOTES:                                                                           */
174/*                                                                                  */
175/************************************************************************************/
176LVPSA_RETURN LVPSA_ApplyNewSettings (LVPSA_InstancePr_t     *pInst)
177{
178    LVM_UINT16 ii;
179    LVM_UINT16 Freq;
180    LVPSA_ControlParams_t   Params;
181    extern LVM_INT16        LVPSA_nSamplesBufferUpdate[];
182    extern LVM_UINT16       LVPSA_SampleRateTab[];
183    extern LVM_UINT16       LVPSA_DownSamplingFactor[];
184
185
186    if(pInst == 0)
187    {
188        return(LVPSA_ERROR_NULLADDRESS);
189    }
190
191    Params = pInst->NewParams;
192
193    /* Modifies filters types and coefficients, clear the taps and
194       re-initializes parameters if sample frequency has changed    */
195    if(Params.Fs != pInst->CurrentParams.Fs)
196    {
197        pInst->CurrentParams.Fs = Params.Fs;
198
199        /* Initialize the center freqeuncies as a function of the sample rate */
200        Freq = (LVM_UINT16) ((LVPSA_SampleRateTab[pInst->CurrentParams.Fs]>>1) / (pInst->nBands + 1));
201        for(ii = pInst->nBands; ii > 0; ii--)
202        {
203            pInst->pFiltersParams[ii-1].CenterFrequency = (LVM_UINT16) (Freq * ii);
204        }
205
206        /* Count the number of relevant filters. If the center frequency of the filter is
207           bigger than the nyquist frequency, then the filter is not relevant and doesn't
208           need to be used */
209        for(ii = pInst->nBands; ii > 0; ii--)
210        {
211            if(pInst->pFiltersParams[ii-1].CenterFrequency < (LVPSA_SampleRateTab[pInst->CurrentParams.Fs]>>1))
212            {
213                pInst->nRelevantFilters = ii;
214                break;
215            }
216        }
217        LVPSA_SetBPFiltersType(pInst, &Params);
218        LVPSA_SetBPFCoefficients(pInst, &Params);
219        LVPSA_SetQPFCoefficients(pInst, &Params);
220        LVPSA_ClearFilterHistory(pInst);
221        pInst->nSamplesBufferUpdate = (LVM_UINT16)LVPSA_nSamplesBufferUpdate[Params.Fs];
222        pInst->BufferUpdateSamplesCount = 0;
223        pInst->DownSamplingFactor = LVPSA_DownSamplingFactor[Params.Fs];
224        pInst->DownSamplingCount = 0;
225        for(ii = 0; ii < (pInst->nBands * pInst->SpectralDataBufferLength); ii++)
226        {
227            pInst->pSpectralDataBufferStart[ii] = 0;
228        }
229        for(ii = 0; ii < pInst->nBands; ii++)
230        {
231            pInst->pPreviousPeaks[ii] = 0;
232        }
233    }
234    else
235    {
236        if(Params.LevelDetectionSpeed != pInst->CurrentParams.LevelDetectionSpeed)
237        {
238            LVPSA_SetQPFCoefficients(pInst, &Params);
239        }
240    }
241
242    pInst->CurrentParams = pInst->NewParams;
243
244    return (LVPSA_OK);
245}
246/************************************************************************************/
247/*                                                                                  */
248/* FUNCTION:            LVPSA_SetBPFiltersType                                      */
249/*                                                                                  */
250/* DESCRIPTION:                                                                     */
251/*  Sets the filter type based on the BPFilterType.                                 */
252/*                                                                                  */
253/* PARAMETERS:                                                                      */
254/*  pInst               Pointer to the instance                                     */
255/*  pParams             Poniter to conrol parameters                                */
256/*                                                                                  */
257/* RETURNS:                                                                         */
258/*  LVPSA_OK            Always succeeds                                             */
259/*                                                                                  */
260/* NOTES:                                                                           */
261/*  1. To select the biquad type the follow rules are applied:                      */
262/*          Double precision    if (fc <= fs/110)                                   */
263/*          Double precision    if (fs/110 < fc < fs/85) & (Q>3)                    */
264/*          Single precision    otherwise                                           */
265/*                                                                                  */
266/************************************************************************************/
267LVPSA_RETURN LVPSA_SetBPFiltersType (   LVPSA_InstancePr_t        *pInst,
268                                        LVPSA_ControlParams_t      *pParams  )
269{
270
271    extern LVM_UINT16   LVPSA_SampleRateTab[];                                            /* Sample rate table */
272    LVM_UINT16          ii;                                                         /* Filter band index */
273    LVM_UINT32          fs = (LVM_UINT32)LVPSA_SampleRateTab[(LVM_UINT16)pParams->Fs];      /* Sample rate */
274    LVM_UINT32          fc;                                                         /* Filter centre frequency */
275    LVM_INT16           QFactor;                                                    /* Filter Q factor */
276
277    for (ii = 0; ii < pInst->nRelevantFilters; ii++)
278    {
279        /*
280         * Get the filter settings
281         */
282        fc = (LVM_UINT32)pInst->pFiltersParams[ii].CenterFrequency;     /* Get the band centre frequency */
283        QFactor =(LVM_INT16) pInst->pFiltersParams[ii].QFactor;                    /* Get the band Q factor */
284
285
286        /*
287         * For each filter set the type of biquad required
288         */
289        pInst->pBPFiltersPrecision[ii] = LVPSA_SimplePrecisionFilter;     /* Default to single precision */
290        if ((LOW_FREQ * fs) >= (fc << 15))
291        {
292            /*
293             * fc <= fs/110
294             */
295            pInst->pBPFiltersPrecision[ii] = LVPSA_DoublePrecisionFilter;
296        }
297        else
298        {
299            if (((LOW_FREQ * fs) < (fc << 15)) && ((fc << 15) < (HIGH_FREQ * fs)) && (QFactor > 300))
300            {
301                /*
302                * (fs/110 < fc < fs/85) & (Q>3)
303                */
304                pInst->pBPFiltersPrecision[ii] = LVPSA_DoublePrecisionFilter;
305            }
306        }
307    }
308
309    return(LVPSA_OK);
310}
311
312/************************************************************************************/
313/*                                                                                  */
314/* FUNCTION:            LVPSA_SetBPFCoefficients                                    */
315/*                                                                                  */
316/* DESCRIPTION:                                                                     */
317/*  Sets the band pass filter coefficients. This uses the type to select            */
318/*  single or double precision coefficients.                                        */
319/*                                                                                  */
320/* PARAMETERS:                                                                      */
321/*  pInst               Pointer to the instance                                     */
322/*  Params              Initialisation parameters                                   */
323/*                                                                                  */
324/* RETURNS:                                                                         */
325/*  LVPSA_OK            Always succeeds                                             */
326/*                                                                                  */
327/* NOTES:                                                                           */
328/*                                                                                  */
329/************************************************************************************/
330LVPSA_RETURN LVPSA_SetBPFCoefficients(  LVPSA_InstancePr_t        *pInst,
331                                        LVPSA_ControlParams_t      *pParams)
332{
333
334    LVM_UINT16                      ii;
335
336    /*
337     * Set the coefficients for each band by the init function
338     */
339    for (ii = 0; ii < pInst->nRelevantFilters; ii++)
340    {
341        switch  (pInst->pBPFiltersPrecision[ii])
342        {
343            case    LVPSA_DoublePrecisionFilter:
344            {
345                BP_C32_Coefs_t      Coefficients;
346
347                /*
348                 * Calculate the double precision coefficients
349                 */
350                LVPSA_BPDoublePrecCoefs((LVM_UINT16)pParams->Fs,
351                                       &pInst->pFiltersParams[ii],
352                                       &Coefficients);
353
354                /*
355                 * Set the coefficients
356                 */
357                BP_1I_D16F32Cll_TRC_WRA_01_Init ( &pInst->pBP_Instances[ii],
358                                                  &pInst->pBP_Taps[ii],
359                                                  &Coefficients);
360                break;
361            }
362
363            case    LVPSA_SimplePrecisionFilter:
364            {
365                BP_C16_Coefs_t      Coefficients;
366
367                /*
368                 * Calculate the single precision coefficients
369                 */
370                LVPSA_BPSinglePrecCoefs((LVM_UINT16)pParams->Fs,
371                                       &pInst->pFiltersParams[ii],
372                                       &Coefficients);
373
374                /*
375                 * Set the coefficients
376                 */
377                BP_1I_D16F16Css_TRC_WRA_01_Init ( &pInst->pBP_Instances[ii],
378                                                  &pInst->pBP_Taps[ii],
379                                                  &Coefficients);
380                break;
381            }
382        }
383    }
384
385    return(LVPSA_OK);
386}
387
388
389/************************************************************************************/
390/*                                                                                  */
391/* FUNCTION:            LVPSA_SetQPFCoefficients                                    */
392/*                                                                                  */
393/* DESCRIPTION:                                                                     */
394/*  Sets the quasi peak filters coefficients. This uses the chosen                  */
395/*  LevelDetectionSpeed from the control parameters.                                */
396/*                                                                                  */
397/* PARAMETERS:                                                                      */
398/*  pInst               Pointer to the instance                                     */
399/*  Params              Control parameters                                          */
400/*                                                                                  */
401/* RETURNS:                                                                         */
402/*  LVPSA_OK            Always succeeds                                             */
403/*                                                                                  */
404/* NOTES:                                                                           */
405/*                                                                                  */
406/************************************************************************************/
407LVPSA_RETURN LVPSA_SetQPFCoefficients(   LVPSA_InstancePr_t        *pInst,
408                                         LVPSA_ControlParams_t      *pParams  )
409{
410    LVM_UINT16     ii;
411    LVM_Fs_en      Fs = pParams->Fs;
412    QPD_C32_Coefs  *pCoefficients;
413    extern         QPD_C32_Coefs     LVPSA_QPD_Coefs[];
414
415
416    pCoefficients = &LVPSA_QPD_Coefs[(pParams->LevelDetectionSpeed * LVPSA_NR_SUPPORTED_RATE) + Fs];
417
418
419    for (ii = 0; ii < pInst->nRelevantFilters; ii++)
420    {
421            LVPSA_QPD_Init (&pInst->pQPD_States[ii],
422                            &pInst->pQPD_Taps[ii],
423                            pCoefficients );
424    }
425
426    return(LVPSA_OK);
427
428}
429
430/****************************************************************************************/
431/*                                                                                      */
432/* FUNCTION:                 LVPSA_BPSinglePrecCoefs                                    */
433/*                                                                                      */
434/* DESCRIPTION:                                                                         */
435/*  Calculate single precision coefficients for a band pass filter                      */
436/*                                                                                      */
437/* PARAMETERS:                                                                          */
438/*  Fs                       Sampling frequency index                                   */
439/*  pFilterParams            Pointer to the filter definition                           */
440/*  pCoefficients            Pointer to the coefficients                                */
441/*                                                                                      */
442/* RETURNS:                                                                             */
443/*  LVPSA_OK         Always succeeds                                                    */
444/*                                                                                      */
445/* NOTES:                                                                               */
446/*  1. The equations used are as follows:                                               */
447/*                                                                                      */
448/*      t0 = 2 * Pi * Fc / Fs                                                           */
449/*                                                                                      */
450/*      b2 = -0.5 * (2Q - t0) / (2Q + t0)                                               */
451/*      b1 = (0.5 - b2) * cos(t0)                                                       */
452/*      a0 = (0.5 + b2) / 2                                                             */
453/*                                                                                      */
454/*  Where:                                                                              */
455/*      Fc          is the centre frequency, DC to Nyquist                              */
456/*      Fs          is the sample frequency, 8000 to 48000 in descrete steps            */
457/*      Q           is the Q factor, 0.25 to 12                                         */
458/*                                                                                      */
459/*  2. This function is entirely based on the LVEQNB_SinglePrecCoefs function           */
460/*     of the n bands equalizer (LVEQNB                                                 */
461/*                                                                                      */
462/****************************************************************************************/
463LVPSA_RETURN LVPSA_BPSinglePrecCoefs(    LVM_UINT16              Fs,
464                                         LVPSA_FilterParam_t    *pFilterParams,
465                                         BP_C16_Coefs_t         *pCoefficients)
466{
467
468    extern LVM_INT16    LVPSA_TwoPiOnFsTable[];
469    extern LVM_INT16    LVPSA_CosCoef[];
470
471
472    /*
473     * Intermediate variables and temporary values
474     */
475    LVM_INT32           T0;
476    LVM_INT16           D;
477    LVM_INT32           A0;
478    LVM_INT32           B1;
479    LVM_INT32           B2;
480    LVM_INT32           Dt0;
481    LVM_INT32           B2_Den;
482    LVM_INT32           B2_Num;
483    LVM_INT32           COS_T0;
484    LVM_INT16           coef;
485    LVM_INT32           factor;
486    LVM_INT16           t0;
487    LVM_INT16           i;
488
489
490    /*
491     * Get the filter definition
492     */
493    LVM_UINT16          Frequency   = pFilterParams->CenterFrequency;
494    LVM_UINT16          QFactor     = pFilterParams->QFactor;
495
496
497    /*
498     * Calculating the intermediate values
499     */
500    T0 = (LVM_INT32)Frequency * LVPSA_TwoPiOnFsTable[Fs];   /* T0 = 2 * Pi * Fc / Fs */
501    D = 3200;                                               /* Floating point value 1.000000 (1*100*2^5) */
502                                                            /* Force D = 1 : the function was originally used for a peaking filter.
503                                                               The D parameter do not exist for a BandPass filter coefficients */
504
505    /*
506     * Calculate the B2 coefficient
507     */
508    Dt0 = D * (T0 >> 10);
509    B2_Den = (LVM_INT32)(((LVM_UINT32)QFactor << 19) + (LVM_UINT32)(Dt0 >> 2));
510    B2_Num = (LVM_INT32)((LVM_UINT32)(Dt0 >> 3) - ((LVM_UINT32)QFactor << 18));
511    B2 = (B2_Num / (B2_Den >> 16)) << 15;
512
513    /*
514     * Calculate the cosine by a polynomial expansion using the equation:
515     *
516     *  Cos += coef(n) * t0^n                   For n = 0 to 6
517     */
518    T0 = (T0 >> 10) * 20859;                    /* Scale to 1.0 in 16-bit for range 0 to fs/2 */
519    t0 = (LVM_INT16)(T0 >> 16);
520    factor = 0x7fff;                            /* Initialise to 1.0 for the a0 coefficient */
521    COS_T0 = 0;                                 /* Initialise the error to zero */
522    for (i=1; i<7; i++)
523    {
524        coef = LVPSA_CosCoef[i];                /* Get the nth coefficient */
525        COS_T0 += (factor * coef) >> 5;         /* The nth partial sum */
526        factor = (factor * t0) >> 15;           /* Calculate t0^n */
527    }
528    COS_T0 = COS_T0 << (LVPSA_CosCoef[0]+6);          /* Correct the scaling */
529
530
531    B1 = ((0x40000000 - B2) >> 16) * (COS_T0 >> 16);    /* B1 = (0.5 - b2) * cos(t0) */
532    A0 = (0x40000000 + B2) >> 1;                        /* A0 = (0.5 + b2) / 2 */
533
534    /*
535     * Write coeff into the data structure
536     */
537    pCoefficients->A0 = (LVM_INT16)(A0>>16);
538    pCoefficients->B1 = (LVM_INT16)(B1>>15);
539    pCoefficients->B2 = (LVM_INT16)(B2>>16);
540
541
542    return(LVPSA_OK);
543}
544
545/****************************************************************************************/
546/*                                                                                      */
547/* FUNCTION:                 LVPSA_BPDoublePrecCoefs                                    */
548/*                                                                                      */
549/* DESCRIPTION:                                                                         */
550/*  Calculate double precision coefficients for a band pass filter                      */
551/*                                                                                      */
552/* PARAMETERS:                                                                          */
553/*  Fs                       Sampling frequency index                                   */
554/*  pFilterParams            Pointer to the filter definition                           */
555/*  pCoefficients            Pointer to the coefficients                                */
556/*                                                                                      */
557/* RETURNS:                                                                             */
558/*  LVPSA_OK                 Always succeeds                                            */
559/*                                                                                      */
560/* NOTES:                                                                               */
561/*  1. The equations used are as follows:                                               */
562/*                                                                                      */
563/*      t0 = 2 * Pi * Fc / Fs                                                           */
564/*                                                                                      */
565/*      b2 = -0.5 * (2Q - t0) / (2Q + t0)                                               */
566/*      b1 = (0.5 - b2) * (1 - coserr(t0))                                              */
567/*      a0 = (0.5 + b2) / 2                                                             */
568/*                                                                                      */
569/*  Where:                                                                              */
570/*      Fc          is the centre frequency, DC to Fs/50                                */
571/*      Fs          is the sample frequency, 8000 to 48000 in descrete steps            */
572/*      Q           is the Q factor, 0.25 to 12 (represented by 25 to 1200)             */
573/*                                                                                      */
574/*  2. The double precision coefficients are only used when fc is less than fs/85, so   */
575/*     the cosine of t0 is always close to 1.0. Instead of calculating the cosine       */
576/*     itself the difference from the value 1.0 is calculated, this can be done with    */
577/*     lower precision maths.                                                           */
578/*                                                                                      */
579/*  3. The value of the B2 coefficient is only calculated as a single precision value,  */
580/*     small errors in this value have a combined effect on the Q and Gain but not the  */
581/*     the frequency of the filter.                                                     */
582/*                                                                                      */
583/*  4. This function is entirely based on the LVEQNB_DoublePrecCoefs function           */
584/*     of the n bands equalizer (LVEQNB                                                 */
585/*                                                                                      */
586/****************************************************************************************/
587LVPSA_RETURN LVPSA_BPDoublePrecCoefs(   LVM_UINT16            Fs,
588                                        LVPSA_FilterParam_t  *pFilterParams,
589                                        BP_C32_Coefs_t       *pCoefficients)
590{
591
592    extern LVM_INT16    LVPSA_TwoPiOnFsTable[];
593    extern LVM_INT16    LVPSA_DPCosCoef[];
594
595    /*
596     * Intermediate variables and temporary values
597     */
598    LVM_INT32           T0;
599    LVM_INT16           D;
600    LVM_INT32           A0;
601    LVM_INT32           B1;
602    LVM_INT32           B2;
603    LVM_INT32           Dt0;
604    LVM_INT32           B2_Den;
605    LVM_INT32           B2_Num;
606    LVM_INT32           CosErr;
607    LVM_INT16           coef;
608    LVM_INT32           factor;
609    LVM_INT16           t0;
610    LVM_INT16           i;
611
612    /*
613     * Get the filter definition
614     */
615    LVM_UINT16          Frequency   = pFilterParams->CenterFrequency;
616    LVM_UINT16          QFactor     = pFilterParams->QFactor;
617
618
619    /*
620     * Calculating the intermediate values
621     */
622    T0 = (LVM_INT32)Frequency * LVPSA_TwoPiOnFsTable[Fs];   /* T0 = 2 * Pi * Fc / Fs */
623    D = 3200;                                               /* Floating point value 1.000000 (1*100*2^5) */
624                                                            /* Force D = 1 : the function was originally used for a peaking filter.
625                                                               The D parameter do not exist for a BandPass filter coefficients */
626
627    /*
628     * Calculate the B2 coefficient
629     */
630    Dt0 = D * (T0 >> 10);
631    B2_Den = (LVM_INT32)(((LVM_UINT32)QFactor << 19) + (LVM_UINT32)(Dt0 >> 2));
632    B2_Num = (LVM_INT32)((LVM_UINT32)(Dt0 >> 3) - ((LVM_UINT32)QFactor << 18));
633    B2 = (B2_Num / (B2_Den >> 16)) << 15;
634
635    /*
636     * Calculate the cosine error by a polynomial expansion using the equation:
637     *
638     *  CosErr += coef(n) * t0^n                For n = 0 to 4
639     */
640    T0 = (T0 >> 6) * 0x7f53;                    /* Scale to 1.0 in 16-bit for range 0 to fs/50 */
641    t0 = (LVM_INT16)(T0 >> 16);
642    factor = 0x7fff;                            /* Initialise to 1.0 for the a0 coefficient */
643    CosErr = 0;                                 /* Initialise the error to zero */
644    for (i=1; i<5; i++)
645    {
646        coef = LVPSA_DPCosCoef[i];              /* Get the nth coefficient */
647        CosErr += (factor * coef) >> 5;         /* The nth partial sum */
648        factor = (factor * t0) >> 15;           /* Calculate t0^n */
649    }
650    CosErr = CosErr << (LVPSA_DPCosCoef[0]);          /* Correct the scaling */
651
652    /*
653     * Calculate the B1 and A0 coefficients
654     */
655    B1 = (0x40000000 - B2);                     /* B1 = (0.5 - b2) */
656    A0 = ((B1 >> 16) * (CosErr >> 10)) >> 6;    /* Temporary storage for (0.5 - b2) * coserr(t0) */
657    B1 -= A0;                                   /* B1 = (0.5 - b2) * (1 - coserr(t0))  */
658    A0 = (0x40000000 + B2) >> 1;                /* A0 = (0.5 + b2) / 2 */
659
660    /*
661     * Write coeff into the data structure
662     */
663    pCoefficients->A0 = A0;
664    pCoefficients->B1 = B1;
665    pCoefficients->B2 = B2;
666
667    return(LVPSA_OK);
668}
669
670/************************************************************************************/
671/*                                                                                  */
672/* FUNCTION:            LVPSA_ClearFilterHistory                                    */
673/*                                                                                  */
674/* DESCRIPTION:                                                                     */
675/*  Clears the filters' data history                                                */
676/*                                                                                  */
677/* PARAMETERS:                                                                      */
678/*  pInst           Pointer to the instance                                         */
679/*                                                                                  */
680/* RETURNS:                                                                         */
681/*  LVPSA_OK         Always succeeds                                                */
682/*                                                                                  */
683/* NOTES:                                                                           */
684/*                                                                                  */
685/************************************************************************************/
686LVPSA_RETURN LVPSA_ClearFilterHistory(LVPSA_InstancePr_t        *pInst)
687{
688    LVM_INT8       *pTapAddress;
689    LVM_UINT32       i;
690
691    /* Band Pass filters taps */
692    pTapAddress = (LVM_INT8 *)pInst->pBP_Taps;
693    for(i = 0; i < pInst->nBands * sizeof(Biquad_1I_Order2_Taps_t); i++)
694    {
695        pTapAddress[i] = 0;
696    }
697
698    /* Quasi-peak filters taps */
699    pTapAddress = (LVM_INT8 *)pInst->pQPD_Taps;
700    for(i = 0; i < pInst->nBands * sizeof(QPD_Taps_t); i++)
701    {
702        pTapAddress[i] = 0;
703    }
704
705    return(LVPSA_OK);
706}
707
708