src/sigana_fixp_ldac.c - platform/external/libldac - Git at Google

 /*
  * Copyright (C) 2003 - 2016 Sony Corporation
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #include "ldac.h"


 #define LDAC_Q_LOWENERGY    11
 #define LDAC_Q_ADD_LOWENERGY 4

 #define LDAC_TH_LOWENERGY_L (0x070bc28f>>LDAC_Q_ADD_LOWENERGY) /* Q15, _scalar(225.47)(Q19)>>4 */
 #define LDAC_TH_LOWENERGY_M (0x1c0ce148>>LDAC_Q_ADD_LOWENERGY) /* Q15, _scalar(897.61)(Q19)>>4 */
 #define LDAC_TH_LOWENERGY_H (0x6fab851f>>LDAC_Q_ADD_LOWENERGY) /* Q15, _scalar(3573.44)(Q19)>>4 */

 #define LDAC_TH_CENTROID 0x00168000 /* Q15, _scalar(45.0) */

 /***************************************************************************************************
     Lookup Table for Calculating Square Root Value
 ***************************************************************************************************/
 static INT16 sa_sqrt_ldac[97] = { /* Q14 */
     0x2d41, 0x2df4, 0x2ea5, 0x2f54, 0x3000, 0x30a9, 0x3150, 0x31f5,
     0x3298, 0x3339, 0x33d8, 0x3475, 0x3510, 0x35aa, 0x3642, 0x36d8,
     0x376c, 0x3800, 0x3891, 0x3921, 0x39b0, 0x3a3d, 0x3ac9, 0x3b54,
     0x3bdd, 0x3c66, 0x3ced, 0x3d72, 0x3df7, 0x3e7b, 0x3efd, 0x3f7f,
     0x4000, 0x407f, 0x40fe, 0x417b, 0x41f8, 0x4273, 0x42ee, 0x4368,
     0x43e1, 0x445a, 0x44d1, 0x4548, 0x45be, 0x4633, 0x46a7, 0x471b,
     0x478d, 0x4800, 0x4871, 0x48e2, 0x4952, 0x49c1, 0x4a30, 0x4a9e,
     0x4b0b, 0x4b78, 0x4be5, 0x4c50, 0x4cbb, 0x4d26, 0x4d90, 0x4df9,
     0x4e62, 0x4eca, 0x4f32, 0x4f99, 0x5000, 0x5066, 0x50cb, 0x5130,
     0x5195, 0x51f9, 0x525d, 0x52c0, 0x5323, 0x5385, 0x53e7, 0x5449,
     0x54a9, 0x550a, 0x556a, 0x55ca, 0x5629, 0x5688, 0x56e6, 0x5745,
     0x57a2, 0x5800, 0x585c, 0x58b9, 0x5915, 0x5971, 0x59cc, 0x5a27,
     0x5a82,
 };

 /***************************************************************************************************
     Subfunction: Multiply
 ***************************************************************************************************/
 __inline static INT32 mul_ldac(
 INT32 in1,
 INT32 in2)
 {
     INT32 out;
     INT64 acc;

     /* Q30 <- Q30 * Q30 */
     acc = (INT64)in1 * in2;
     acc >>= 30;

     if (acc > LDAC_MAX_32BIT) {
         out = LDAC_MAX_32BIT;
     }
     else if (acc < LDAC_MIN_32BIT) {
         out = LDAC_MIN_32BIT;
     }
     else {
         out = (INT32)acc;
     }

     return out;
 }

 /***************************************************************************************************
     Subfunction: Subtract
 ***************************************************************************************************/
 __inline static INT32 sub_ldac(
 INT32 in1,
 INT32 in2)
 {
     INT32 out;

     out = in1 - in2;

     return out;
 }

 /***************************************************************************************************
     Subfunction: Add
 ***************************************************************************************************/
 __inline static INT32 add_ldac(
 INT32 in1,
 INT32 in2)
 {
     INT32 out;

     out = in1 + in2;

     return out;
 }

 /***************************************************************************************************
     Subfunction: Multiply and Add
 ***************************************************************************************************/
 __inline static INT32 mad_ldac(
 INT32 in1,
 INT32 in2,
 INT32 in3)
 {
     INT32 out;

     out = mul_ldac(in2, in3);
     out = add_ldac(in1, out);

     return out;
 }

 /***************************************************************************************************
     Subfunction: Normalize
 ***************************************************************************************************/
 __inline static INT16 norm_ldac(
 UINT32 val)
 {
     INT16 len;

     len = 0;
     while (val > 0) {
         val >>= 1;
         len++;
     }

     return len;
 }

 /***************************************************************************************************
     Subfunction: Calculate Exponential
 ***************************************************************************************************/
 __inline static INT16 calc_exp_ldac(
 INT32 in_h,
 UINT32 in_l)
 {
     INT16 e;

     if (in_h) {
         e = norm_ldac((UINT32)in_h) + 32;
     }
     else {
         e = norm_ldac(in_l);
     }
     e = (63 - e) & 0xfffe;

     return e;
 }

 /***************************************************************************************************
     Subfunction: Calculate Square Root
 ***************************************************************************************************/
 __inline static INT32 calc_sqrt_ldac(
 INT32 in,
 INT16 e)
 {
     INT16 i;
     INT32 val, dif, a;

     if (in <= 0) {
         return 0;
     }

     i = (INT16)(in >> 24);
     a = in & 0x00ffffffL;

     i = i - 32;
     val = sa_sqrt_ldac[i] << 16; /* Q30 <- Q14 << 16 */
     dif = sub_ldac(sa_sqrt_ldac[i+1]<<16, val); /* Q30 */
     a = (INT32)(((INT64)a << 30) >> 24); /* Q30 a = a / 0x1000000 */
     val = mad_ldac(val, dif, a);
     val = val >> (e >> 1);

     return val;
 }

 /***************************************************************************************************
     Calculate Pseudo Spectrum and Low Band Energy
 ***************************************************************************************************/
 static INT32 calc_mdct_pseudo_spectrum_ldac(
 INT32 *p_spec,
 INT32 *p_psd,
 UINT32 nsp)
 {
     UINT32 isp;
     INT16 e;
     INT32 y0, y1, y2;
     INT32 tmp;
     INT64 low_energy;
     INT64 acc1, acc2;

     {
         y1 = p_spec[0];
         y2 = p_spec[1];
         acc1 = (INT64)y1 * (INT64)y1;
         acc2 = (INT64)y2 * (INT64)y2;
         acc1 = acc1 + acc2;
         low_energy = acc1 >> LDAC_Q_ADD_LOWENERGY; /* Q26 <- (Q15 * Q15) >> 4 */
         e = calc_exp_ldac((INT32)(acc1>>32), (UINT32)(acc1&0xffffffff));
         tmp = (INT32)((acc1 << e) >> 32);
         *p_psd++ = calc_sqrt_ldac(tmp, e);
     }

     for (isp = 1; isp < LDAC_NSP_LOWENERGY; isp++) {
         y0 = y1;
         y1 = y2;
         y2 = p_spec[isp+1];
         acc1 = (INT64)y1 * (INT64)y1;
         acc2 = (INT64)(y0-y2) * (INT64)(y0-y2);
         acc1 = acc1 + acc2;
         low_energy += acc1 >> LDAC_Q_ADD_LOWENERGY; /* Q26 <- (Q15 * Q15) >> 4 */
         e = calc_exp_ldac((INT32)(acc1>>32), (UINT32)(acc1&0xffffffff));
         tmp = (INT32)((acc1 << e) >> 32);
         *p_psd++ = calc_sqrt_ldac(tmp, e);
     }

     for (isp = LDAC_NSP_LOWENERGY; isp < nsp-1; isp++) {
         y0 = y1;
         y1 = y2;
         y2 = p_spec[isp+1];
         acc1 = (INT64)y1 * (INT64)y1;
         acc2 = (INT64)(y0-y2) * (INT64)(y0-y2);
         acc1 = acc1 + acc2;
         e = calc_exp_ldac((INT32)(acc1 >> 32), (UINT32)(acc1&0xffffffff));
         tmp = (INT32) ((acc1 << e) >> 32);
         *p_psd++ = calc_sqrt_ldac(tmp, e);
     }

     {
         acc1 = (INT64)y1 * (INT64)y1;
         acc2 = (INT64)y2 * (INT64)y2;
         acc1 = acc1 + acc2;
         e = calc_exp_ldac((INT32)(acc1 >> 32), (UINT32)(acc1&0xffffffff));
         tmp = (INT32)((acc1 << e) >> 32);
         *p_psd++ = calc_sqrt_ldac(tmp, e);
     }

     low_energy >>= LDAC_Q_LOWENERGY; /* Q15 <- Q26 >> 11 */
     if (low_energy > LDAC_MAX_32BIT) {
         low_energy = LDAC_MAX_32BIT;
     }

     return (INT32)low_energy;
 }

 /***************************************************************************************************
     Calculate Pseudo Spectrum Centroid
 ***************************************************************************************************/
 static INT32 calc_spectral_centroid_ldac(
 INT32 *p_spec,
 UINT32 nsp)
 {
     UINT32 isp;
     INT32 centroid = 0;
     INT64 s1, s2;

     s1 = s2 = 0;
     for (isp = 0; isp < nsp; isp++) {
         s1 += ((INT64)isp * (INT64)*p_spec); /* Q15 <- Q00 * Q15 */
         s2 += (INT64)*p_spec++; /* Q15 */
     }

     if (s2 != 0) {
         centroid = (INT32)((s1<<15) / s2); /* Q15 <- (Q15<<15) / Q15 */
     }

     return centroid;
 }

 /***************************************************************************************************
     Calculate Number of Zero Cross
 ***************************************************************************************************/
 static UINT32 calc_zero_cross_number_ldac(
 INT32 *p_time,
 UINT32 n)
 {
     UINT32 i;
     UINT32 zero_cross = 0;
     INT32 prev, tmp;

     prev = 0;
     for (i = 0; i < n; i++) {
         if ((prev == 0) || (*p_time == 0)) {
             tmp = 0;
         }
         else {
             tmp = prev ^ (*p_time);
         }

         if (tmp < 0) {
             zero_cross++;
         }
         prev = *p_time++;
     }

     return zero_cross;
 }

 /***************************************************************************************************
     Analyze Frame Status
 ***************************************************************************************************/
 DECLSPEC int ana_frame_status_ldac(
 SFINFO *p_sfinfo,
 int nlnn)
 {
     AC *p_ac;
     int ich;
     int nchs = p_sfinfo->cfg.ch;
     int nsmpl = npow2_ldac(nlnn+1);
     int cnt;
     int a_status[LDAC_PRCNCH];
     UINT32 zero_cross;
     INT32 low_energy, centroid;
     INT32 a_psd_spec[LDAC_NSP_PSEUDOANA];


     for (ich = 0; ich < nchs; ich++) {
         p_ac = p_sfinfo->ap_ac[ich];

         low_energy = calc_mdct_pseudo_spectrum_ldac(p_ac->p_acsub->a_spec, a_psd_spec, LDAC_NSP_PSEUDOANA);

         centroid = calc_spectral_centroid_ldac(a_psd_spec, LDAC_NSP_PSEUDOANA);

         zero_cross = calc_zero_cross_number_ldac(p_ac->p_acsub->a_time, nsmpl);

         a_status[ich] = LDAC_FRMSTAT_LEV_0;
         if (low_energy < LDAC_TH_LOWENERGY_L) {
             a_status[ich] = LDAC_FRMSTAT_LEV_3;
         }
         else {
             if (low_energy < LDAC_TH_LOWENERGY_M) {
                 a_status[ich] = LDAC_FRMSTAT_LEV_2;
             }
             else if (low_energy < LDAC_TH_LOWENERGY_H) {
                 a_status[ich] = LDAC_FRMSTAT_LEV_1;
             }

             cnt = p_ac->frmana_cnt;
             if ((centroid > LDAC_TH_CENTROID) && (zero_cross >= LDAC_TH_ZCROSNUM)) {
                 cnt++;

                 if (cnt >= LDAC_MAXCNT_FRMANA) {
                     cnt = LDAC_MAXCNT_FRMANA;
                     a_status[ich] = LDAC_FRMSTAT_LEV_2;
                 }
                 else if (a_status[ich] <= LDAC_FRMSTAT_LEV_1) {
                     a_status[ich]++;
                 }
             }
             else {
                 cnt = 0;
             }
             p_ac->frmana_cnt = cnt;
         }
     }

     if (nchs == LDAC_CHANNEL_1CH) {
         return a_status[0];
     } else {
         return min_ldac(a_status[0], a_status[1]);
     }
 }
	/*
	* Copyright (C) 2003 - 2016 Sony Corporation
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#include "ldac.h"


	#define LDAC_Q_LOWENERGY 11
	#define LDAC_Q_ADD_LOWENERGY 4

	#define LDAC_TH_LOWENERGY_L (0x070bc28f>>LDAC_Q_ADD_LOWENERGY) /* Q15, _scalar(225.47)(Q19)>>4 */
	#define LDAC_TH_LOWENERGY_M (0x1c0ce148>>LDAC_Q_ADD_LOWENERGY) /* Q15, _scalar(897.61)(Q19)>>4 */
	#define LDAC_TH_LOWENERGY_H (0x6fab851f>>LDAC_Q_ADD_LOWENERGY) /* Q15, _scalar(3573.44)(Q19)>>4 */

	#define LDAC_TH_CENTROID 0x00168000 /* Q15, _scalar(45.0) */

	/***************************************************************************************************
	Lookup Table for Calculating Square Root Value
	***************************************************************************************************/
	static INT16 sa_sqrt_ldac[97] = { /* Q14 */
	0x2d41, 0x2df4, 0x2ea5, 0x2f54, 0x3000, 0x30a9, 0x3150, 0x31f5,
	0x3298, 0x3339, 0x33d8, 0x3475, 0x3510, 0x35aa, 0x3642, 0x36d8,
	0x376c, 0x3800, 0x3891, 0x3921, 0x39b0, 0x3a3d, 0x3ac9, 0x3b54,
	0x3bdd, 0x3c66, 0x3ced, 0x3d72, 0x3df7, 0x3e7b, 0x3efd, 0x3f7f,
	0x4000, 0x407f, 0x40fe, 0x417b, 0x41f8, 0x4273, 0x42ee, 0x4368,
	0x43e1, 0x445a, 0x44d1, 0x4548, 0x45be, 0x4633, 0x46a7, 0x471b,
	0x478d, 0x4800, 0x4871, 0x48e2, 0x4952, 0x49c1, 0x4a30, 0x4a9e,
	0x4b0b, 0x4b78, 0x4be5, 0x4c50, 0x4cbb, 0x4d26, 0x4d90, 0x4df9,
	0x4e62, 0x4eca, 0x4f32, 0x4f99, 0x5000, 0x5066, 0x50cb, 0x5130,
	0x5195, 0x51f9, 0x525d, 0x52c0, 0x5323, 0x5385, 0x53e7, 0x5449,
	0x54a9, 0x550a, 0x556a, 0x55ca, 0x5629, 0x5688, 0x56e6, 0x5745,
	0x57a2, 0x5800, 0x585c, 0x58b9, 0x5915, 0x5971, 0x59cc, 0x5a27,
	0x5a82,
	};

	/***************************************************************************************************
	Subfunction: Multiply
	***************************************************************************************************/
	__inline static INT32 mul_ldac(
	INT32 in1,
	INT32 in2)
	{
	INT32 out;
	INT64 acc;

	/* Q30 <- Q30 * Q30 */
	acc = (INT64)in1 * in2;
	acc >>= 30;

	if (acc > LDAC_MAX_32BIT) {
	out = LDAC_MAX_32BIT;
	}
	else if (acc < LDAC_MIN_32BIT) {
	out = LDAC_MIN_32BIT;
	}
	else {
	out = (INT32)acc;
	}

	return out;
	}

	/***************************************************************************************************
	Subfunction: Subtract
	***************************************************************************************************/
	__inline static INT32 sub_ldac(
	INT32 in1,
	INT32 in2)
	{
	INT32 out;

	out = in1 - in2;

	return out;
	}

	/***************************************************************************************************
	Subfunction: Add
	***************************************************************************************************/
	__inline static INT32 add_ldac(
	INT32 in1,
	INT32 in2)
	{
	INT32 out;

	out = in1 + in2;

	return out;
	}

	/***************************************************************************************************
	Subfunction: Multiply and Add
	***************************************************************************************************/
	__inline static INT32 mad_ldac(
	INT32 in1,
	INT32 in2,
	INT32 in3)
	{
	INT32 out;

	out = mul_ldac(in2, in3);
	out = add_ldac(in1, out);

	return out;
	}

	/***************************************************************************************************
	Subfunction: Normalize
	***************************************************************************************************/
	__inline static INT16 norm_ldac(
	UINT32 val)
	{
	INT16 len;

	len = 0;
	while (val > 0) {
	val >>= 1;
	len++;
	}

	return len;
	}

	/***************************************************************************************************
	Subfunction: Calculate Exponential
	***************************************************************************************************/
	__inline static INT16 calc_exp_ldac(
	INT32 in_h,
	UINT32 in_l)
	{
	INT16 e;

	if (in_h) {
	e = norm_ldac((UINT32)in_h) + 32;
	}
	else {
	e = norm_ldac(in_l);
	}
	e = (63 - e) & 0xfffe;

	return e;
	}

	/***************************************************************************************************
	Subfunction: Calculate Square Root
	***************************************************************************************************/
	__inline static INT32 calc_sqrt_ldac(
	INT32 in,
	INT16 e)
	{
	INT16 i;
	INT32 val, dif, a;

	if (in <= 0) {
	return 0;
	}

	i = (INT16)(in >> 24);
	a = in & 0x00ffffffL;

	i = i - 32;
	val = sa_sqrt_ldac[i] << 16; /* Q30 <- Q14 << 16 */
	dif = sub_ldac(sa_sqrt_ldac[i+1]<<16, val); /* Q30 */
	a = (INT32)(((INT64)a << 30) >> 24); /* Q30 a = a / 0x1000000 */
	val = mad_ldac(val, dif, a);
	val = val >> (e >> 1);

	return val;
	}

	/***************************************************************************************************
	Calculate Pseudo Spectrum and Low Band Energy
	***************************************************************************************************/
	static INT32 calc_mdct_pseudo_spectrum_ldac(
	INT32 *p_spec,
	INT32 *p_psd,
	UINT32 nsp)
	{
	UINT32 isp;
	INT16 e;
	INT32 y0, y1, y2;
	INT32 tmp;
	INT64 low_energy;
	INT64 acc1, acc2;

	{
	y1 = p_spec[0];
	y2 = p_spec[1];
	acc1 = (INT64)y1 * (INT64)y1;
	acc2 = (INT64)y2 * (INT64)y2;
	acc1 = acc1 + acc2;
	low_energy = acc1 >> LDAC_Q_ADD_LOWENERGY; /* Q26 <- (Q15 * Q15) >> 4 */
	e = calc_exp_ldac((INT32)(acc1>>32), (UINT32)(acc1&0xffffffff));
	tmp = (INT32)((acc1 << e) >> 32);
	*p_psd++ = calc_sqrt_ldac(tmp, e);
	}

	for (isp = 1; isp < LDAC_NSP_LOWENERGY; isp++) {
	y0 = y1;
	y1 = y2;
	y2 = p_spec[isp+1];
	acc1 = (INT64)y1 * (INT64)y1;
	acc2 = (INT64)(y0-y2) * (INT64)(y0-y2);
	acc1 = acc1 + acc2;
	low_energy += acc1 >> LDAC_Q_ADD_LOWENERGY; /* Q26 <- (Q15 * Q15) >> 4 */
	e = calc_exp_ldac((INT32)(acc1>>32), (UINT32)(acc1&0xffffffff));
	tmp = (INT32)((acc1 << e) >> 32);
	*p_psd++ = calc_sqrt_ldac(tmp, e);
	}

	for (isp = LDAC_NSP_LOWENERGY; isp < nsp-1; isp++) {
	y0 = y1;
	y1 = y2;
	y2 = p_spec[isp+1];
	acc1 = (INT64)y1 * (INT64)y1;
	acc2 = (INT64)(y0-y2) * (INT64)(y0-y2);
	acc1 = acc1 + acc2;
	e = calc_exp_ldac((INT32)(acc1 >> 32), (UINT32)(acc1&0xffffffff));
	tmp = (INT32) ((acc1 << e) >> 32);
	*p_psd++ = calc_sqrt_ldac(tmp, e);
	}

	{
	acc1 = (INT64)y1 * (INT64)y1;
	acc2 = (INT64)y2 * (INT64)y2;
	acc1 = acc1 + acc2;
	e = calc_exp_ldac((INT32)(acc1 >> 32), (UINT32)(acc1&0xffffffff));
	tmp = (INT32)((acc1 << e) >> 32);
	*p_psd++ = calc_sqrt_ldac(tmp, e);
	}

	low_energy >>= LDAC_Q_LOWENERGY; /* Q15 <- Q26 >> 11 */
	if (low_energy > LDAC_MAX_32BIT) {
	low_energy = LDAC_MAX_32BIT;
	}

	return (INT32)low_energy;
	}

	/***************************************************************************************************
	Calculate Pseudo Spectrum Centroid
	***************************************************************************************************/
	static INT32 calc_spectral_centroid_ldac(
	INT32 *p_spec,
	UINT32 nsp)
	{
	UINT32 isp;
	INT32 centroid = 0;
	INT64 s1, s2;

	s1 = s2 = 0;
	for (isp = 0; isp < nsp; isp++) {
	s1 += ((INT64)isp * (INT64)p_spec); / Q15 <- Q00 * Q15 */
	s2 += (INT64)p_spec++; / Q15 */
	}

	if (s2 != 0) {
	centroid = (INT32)((s1<<15) / s2); /* Q15 <- (Q15<<15) / Q15 */
	}

	return centroid;
	}

	/***************************************************************************************************
	Calculate Number of Zero Cross
	***************************************************************************************************/
	static UINT32 calc_zero_cross_number_ldac(
	INT32 *p_time,
	UINT32 n)
	{
	UINT32 i;
	UINT32 zero_cross = 0;
	INT32 prev, tmp;

	prev = 0;
	for (i = 0; i < n; i++) {
	if ((prev == 0) \|\| (*p_time == 0)) {
	tmp = 0;
	}
	else {
	tmp = prev ^ (*p_time);
	}

	if (tmp < 0) {
	zero_cross++;
	}
	prev = *p_time++;
	}

	return zero_cross;
	}

	/***************************************************************************************************
	Analyze Frame Status
	***************************************************************************************************/
	DECLSPEC int ana_frame_status_ldac(
	SFINFO *p_sfinfo,
	int nlnn)
	{
	AC *p_ac;
	int ich;
	int nchs = p_sfinfo->cfg.ch;
	int nsmpl = npow2_ldac(nlnn+1);
	int cnt;
	int a_status[LDAC_PRCNCH];
	UINT32 zero_cross;
	INT32 low_energy, centroid;
	INT32 a_psd_spec[LDAC_NSP_PSEUDOANA];


	for (ich = 0; ich < nchs; ich++) {
	p_ac = p_sfinfo->ap_ac[ich];

	low_energy = calc_mdct_pseudo_spectrum_ldac(p_ac->p_acsub->a_spec, a_psd_spec, LDAC_NSP_PSEUDOANA);

	centroid = calc_spectral_centroid_ldac(a_psd_spec, LDAC_NSP_PSEUDOANA);

	zero_cross = calc_zero_cross_number_ldac(p_ac->p_acsub->a_time, nsmpl);

	a_status[ich] = LDAC_FRMSTAT_LEV_0;
	if (low_energy < LDAC_TH_LOWENERGY_L) {
	a_status[ich] = LDAC_FRMSTAT_LEV_3;
	}
	else {
	if (low_energy < LDAC_TH_LOWENERGY_M) {
	a_status[ich] = LDAC_FRMSTAT_LEV_2;
	}
	else if (low_energy < LDAC_TH_LOWENERGY_H) {
	a_status[ich] = LDAC_FRMSTAT_LEV_1;
	}

	cnt = p_ac->frmana_cnt;
	if ((centroid > LDAC_TH_CENTROID) && (zero_cross >= LDAC_TH_ZCROSNUM)) {
	cnt++;

	if (cnt >= LDAC_MAXCNT_FRMANA) {
	cnt = LDAC_MAXCNT_FRMANA;
	a_status[ich] = LDAC_FRMSTAT_LEV_2;
	}
	else if (a_status[ich] <= LDAC_FRMSTAT_LEV_1) {
	a_status[ich]++;
	}
	}
	else {
	cnt = 0;
	}
	p_ac->frmana_cnt = cnt;
	}
	}

	if (nchs == LDAC_CHANNEL_1CH) {
	return a_status[0];
	} else {
	return min_ldac(a_status[0], a_status[1]);
	}
	}