src/mdct_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"

 /***************************************************************************************************
     Subfunction: Process MDCT Core
 ***************************************************************************************************/
 static void proc_mdct_core_ldac(
 INT32 *p_x,
 INT32 *p_y,
 int nlnn)
 {
     INT32 i, j, k;
     INT32 loop1, loop2;
     INT32 coef, index0, index1, offset;
     int nsmpl = npow2_ldac(nlnn);
     int shift;
     const int *p_p;
     const INT32 *p_w, *p_c, *p_s;
     INT32 a_work[LDAC_MAXLSU];
     INT32 g0, g1, g2, g3;

     i = nlnn - LDAC_1FSLNN;
     p_w = gaa_fwin_ldac[i];
     p_c = gaa_wcos_ldac[i];
     p_s = gaa_wsin_ldac[i];
     p_p = gaa_perm_ldac[i];

     /* Block Floating */
     shift = LDAC_C_BLKFLT - get_bit_length_ldac(get_absmax_ldac(p_x, nsmpl<<1)) - 1;
     if (shift < 0) {
         shift = 0;
     }

     /* Windowing */
     if (LDAC_Q_MDCT_WIN-shift > 0){
         for (i = 0; i < nsmpl>>1; i++) {
             g0 = mul_rsftrnd_ldac(-p_x[3*nsmpl/2-1-i], p_w[nsmpl/2+i], LDAC_Q_MDCT_WIN-shift);
             g1 = mul_rsftrnd_ldac(-p_x[3*nsmpl/2+i], p_w[nsmpl/2-1-i], LDAC_Q_MDCT_WIN-shift);
             a_work[p_p[i]] = g0 + g1;

             g0 = mul_rsftrnd_ldac(p_x[i], p_w[i], LDAC_Q_MDCT_WIN-shift);
             g1 = mul_rsftrnd_ldac(-p_x[nsmpl-1-i], p_w[nsmpl-1-i], LDAC_Q_MDCT_WIN-shift);
             a_work[p_p[nsmpl/2+i]] = g0 + g1;
         }
     }
     else{
         for (i = 0; i < nsmpl>>1; i++) {
             g0 = mul_lsftrnd_ldac(-p_x[3*nsmpl/2-1-i], p_w[nsmpl/2+i], LDAC_Q_MDCT_WIN-shift);
             g1 = mul_lsftrnd_ldac(-p_x[3*nsmpl/2+i], p_w[nsmpl/2-1-i], LDAC_Q_MDCT_WIN-shift);
             a_work[p_p[i]] = g0 + g1;

             g0 = mul_lsftrnd_ldac(p_x[i], p_w[i], LDAC_Q_MDCT_WIN-shift);
             g1 = mul_lsftrnd_ldac(-p_x[nsmpl-1-i], p_w[nsmpl-1-i], LDAC_Q_MDCT_WIN-shift);
             a_work[p_p[nsmpl/2+i]] = g0 + g1;
         }
     }

     /* Butterfly */
     coef = 0;
     for (i = 0; i < nlnn-1; i++) {
         loop1 = 1 << (nlnn-2-i);
         loop2 = 1 << i;
         index0 = 0;
         index1 = 1 << (i+1);
         offset = 1 << (i+1);

         for (j = 0; j < loop1; j++) {
             for (k = 0; k < loop2; k++) {
                 g0 = mul_rsftrnd_ldac(a_work[index1], p_c[coef], LDAC_Q_MDCT_COS+1);
                 g1 = mul_rsftrnd_ldac(a_work[index1+1], p_s[coef], LDAC_Q_MDCT_SIN+1);
                 g2 = g0 + g1;

                 g0 = mul_rsftrnd_ldac(a_work[index1], p_s[coef], LDAC_Q_MDCT_SIN+1);
                 g1 = mul_rsftrnd_ldac(a_work[index1+1], p_c[coef], LDAC_Q_MDCT_COS+1);
                 g3 = g0 - g1;

                 g0 = a_work[index0] >> 1;
                 g1 = a_work[index0+1] >> 1;

                 a_work[index0] = g0 + g2;
                 a_work[index0+1] = g1 + g3;
                 a_work[index1] = g0 - g2;
                 a_work[index1+1] = g1 - g3;

                 index0 += 2;
                 index1 += 2;
                 coef++;
             }
             index0 += offset;
             index1 += offset;
             coef -= loop2;
         }
         coef += loop2;
     }

     for (i = 0; i < nsmpl>>1; i++) {
         index0 = i << 1;

         g0 = mul_rsftrnd_ldac(a_work[index0], p_c[coef], LDAC_Q_MDCT_COS+shift);
         g1 = mul_rsftrnd_ldac(a_work[index0+1], p_s[coef], LDAC_Q_MDCT_SIN+shift);
         p_y[index0] = g0 + g1;

         g0 = mul_rsftrnd_ldac(a_work[index0], p_s[coef], LDAC_Q_MDCT_SIN+shift);
         g1 = mul_rsftrnd_ldac(a_work[index0+1], p_c[coef], LDAC_Q_MDCT_COS+shift);
         p_y[nsmpl-index0-1] = g0 - g1;

         coef++;
     }


     return;
 }

 /***************************************************************************************************
     Process MDCT
 ***************************************************************************************************/
 DECLFUNC void proc_mdct_ldac(
 SFINFO *p_sfinfo,
 int nlnn)
 {
     AC *p_ac;
     int ich;
     int nchs = p_sfinfo->cfg.ch;

     for (ich = 0; ich < nchs; ich++) {
         p_ac = p_sfinfo->ap_ac[ich];
         proc_mdct_core_ldac(p_ac->p_acsub->a_time, p_ac->p_acsub->a_spec, nlnn);
     }

     return;
 }
	/*
	* 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"

	/***************************************************************************************************
	Subfunction: Process MDCT Core
	***************************************************************************************************/
	static void proc_mdct_core_ldac(
	INT32 *p_x,
	INT32 *p_y,
	int nlnn)
	{
	INT32 i, j, k;
	INT32 loop1, loop2;
	INT32 coef, index0, index1, offset;
	int nsmpl = npow2_ldac(nlnn);
	int shift;
	const int *p_p;
	const INT32 p_w, p_c, *p_s;
	INT32 a_work[LDAC_MAXLSU];
	INT32 g0, g1, g2, g3;

	i = nlnn - LDAC_1FSLNN;
	p_w = gaa_fwin_ldac[i];
	p_c = gaa_wcos_ldac[i];
	p_s = gaa_wsin_ldac[i];
	p_p = gaa_perm_ldac[i];

	/* Block Floating */
	shift = LDAC_C_BLKFLT - get_bit_length_ldac(get_absmax_ldac(p_x, nsmpl<<1)) - 1;
	if (shift < 0) {
	shift = 0;
	}

	/* Windowing */
	if (LDAC_Q_MDCT_WIN-shift > 0){
	for (i = 0; i < nsmpl>>1; i++) {
	g0 = mul_rsftrnd_ldac(-p_x[3*nsmpl/2-1-i], p_w[nsmpl/2+i], LDAC_Q_MDCT_WIN-shift);
	g1 = mul_rsftrnd_ldac(-p_x[3*nsmpl/2+i], p_w[nsmpl/2-1-i], LDAC_Q_MDCT_WIN-shift);
	a_work[p_p[i]] = g0 + g1;

	g0 = mul_rsftrnd_ldac(p_x[i], p_w[i], LDAC_Q_MDCT_WIN-shift);
	g1 = mul_rsftrnd_ldac(-p_x[nsmpl-1-i], p_w[nsmpl-1-i], LDAC_Q_MDCT_WIN-shift);
	a_work[p_p[nsmpl/2+i]] = g0 + g1;
	}
	}
	else{
	for (i = 0; i < nsmpl>>1; i++) {
	g0 = mul_lsftrnd_ldac(-p_x[3*nsmpl/2-1-i], p_w[nsmpl/2+i], LDAC_Q_MDCT_WIN-shift);
	g1 = mul_lsftrnd_ldac(-p_x[3*nsmpl/2+i], p_w[nsmpl/2-1-i], LDAC_Q_MDCT_WIN-shift);
	a_work[p_p[i]] = g0 + g1;

	g0 = mul_lsftrnd_ldac(p_x[i], p_w[i], LDAC_Q_MDCT_WIN-shift);
	g1 = mul_lsftrnd_ldac(-p_x[nsmpl-1-i], p_w[nsmpl-1-i], LDAC_Q_MDCT_WIN-shift);
	a_work[p_p[nsmpl/2+i]] = g0 + g1;
	}
	}

	/* Butterfly */
	coef = 0;
	for (i = 0; i < nlnn-1; i++) {
	loop1 = 1 << (nlnn-2-i);
	loop2 = 1 << i;
	index0 = 0;
	index1 = 1 << (i+1);
	offset = 1 << (i+1);

	for (j = 0; j < loop1; j++) {
	for (k = 0; k < loop2; k++) {
	g0 = mul_rsftrnd_ldac(a_work[index1], p_c[coef], LDAC_Q_MDCT_COS+1);
	g1 = mul_rsftrnd_ldac(a_work[index1+1], p_s[coef], LDAC_Q_MDCT_SIN+1);
	g2 = g0 + g1;

	g0 = mul_rsftrnd_ldac(a_work[index1], p_s[coef], LDAC_Q_MDCT_SIN+1);
	g1 = mul_rsftrnd_ldac(a_work[index1+1], p_c[coef], LDAC_Q_MDCT_COS+1);
	g3 = g0 - g1;

	g0 = a_work[index0] >> 1;
	g1 = a_work[index0+1] >> 1;

	a_work[index0] = g0 + g2;
	a_work[index0+1] = g1 + g3;
	a_work[index1] = g0 - g2;
	a_work[index1+1] = g1 - g3;

	index0 += 2;
	index1 += 2;
	coef++;
	}
	index0 += offset;
	index1 += offset;
	coef -= loop2;
	}
	coef += loop2;
	}

	for (i = 0; i < nsmpl>>1; i++) {
	index0 = i << 1;

	g0 = mul_rsftrnd_ldac(a_work[index0], p_c[coef], LDAC_Q_MDCT_COS+shift);
	g1 = mul_rsftrnd_ldac(a_work[index0+1], p_s[coef], LDAC_Q_MDCT_SIN+shift);
	p_y[index0] = g0 + g1;

	g0 = mul_rsftrnd_ldac(a_work[index0], p_s[coef], LDAC_Q_MDCT_SIN+shift);
	g1 = mul_rsftrnd_ldac(a_work[index0+1], p_c[coef], LDAC_Q_MDCT_COS+shift);
	p_y[nsmpl-index0-1] = g0 - g1;

	coef++;
	}


	return;
	}

	/***************************************************************************************************
	Process MDCT
	***************************************************************************************************/
	DECLFUNC void proc_mdct_ldac(
	SFINFO *p_sfinfo,
	int nlnn)
	{
	AC *p_ac;
	int ich;
	int nchs = p_sfinfo->cfg.ch;

	for (ich = 0; ich < nchs; ich++) {
	p_ac = p_sfinfo->ap_ac[ich];
	proc_mdct_core_ldac(p_ac->p_acsub->a_time, p_ac->p_acsub->a_spec, nlnn);
	}

	return;
	}