1e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard/*
2e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard ** Copyright 2003-2010, VisualOn, Inc.
3e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard **
4e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard ** Licensed under the Apache License, Version 2.0 (the "License");
5e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard ** you may not use this file except in compliance with the License.
6e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard ** You may obtain a copy of the License at
7e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard **
8e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard **     http://www.apache.org/licenses/LICENSE-2.0
9e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard **
10e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard ** Unless required by applicable law or agreed to in writing, software
11e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard ** distributed under the License is distributed on an "AS IS" BASIS,
12e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard ** WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard ** See the License for the specific language governing permissions and
14e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard ** limitations under the License.
15e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard */
16e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard
17e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard/***************************************************************************
18e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard*      File: qisf_ns.c                                                     *
19e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard*                                                                          *
20e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard*      Description: Coding/Decoding of ISF parameters for background noise.*
21e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard*                    The ISF vector is quantized using VQ with split-by-5  *
22e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard*                                                                          *
23e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard****************************************************************************/
24e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard
25e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard#include "typedef.h"
26e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard#include "basic_op.h"
27e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard#include "acelp.h"
28e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard#include "qisf_ns.tab"                     /* Codebooks of ISFs */
29e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard
30e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard/*------------------------------------------------------------------*
31e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard* routine:   Qisf_ns()                                             *
32e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard*            ~~~~~~~~~                                             *
33e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard*------------------------------------------------------------------*/
34e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard
35e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgardvoid Qisf_ns(
365d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen        Word16 * isf1,                        /* input : ISF in the frequency domain (0..0.5) */
375d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen        Word16 * isf_q,                       /* output: quantized ISF                        */
385d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen        Word16 * indice                       /* output: quantization indices                 */
395d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen        )
40e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard{
415d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen    Word16 i;
425d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen    Word32 tmp;
43e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard
445d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen    for (i = 0; i < ORDER; i++)
455d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen    {
465d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen        isf_q[i] = sub(isf1[i], mean_isf_noise[i]);
475d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen    }
48e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard
495d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen    indice[0] = Sub_VQ(&isf_q[0], dico1_isf_noise, 2, SIZE_BK_NOISE1, &tmp);
505d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen    indice[1] = Sub_VQ(&isf_q[2], dico2_isf_noise, 3, SIZE_BK_NOISE2, &tmp);
515d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen    indice[2] = Sub_VQ(&isf_q[5], dico3_isf_noise, 3, SIZE_BK_NOISE3, &tmp);
525d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen    indice[3] = Sub_VQ(&isf_q[8], dico4_isf_noise, 4, SIZE_BK_NOISE4, &tmp);
535d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen    indice[4] = Sub_VQ(&isf_q[12], dico5_isf_noise, 4, SIZE_BK_NOISE5, &tmp);
54e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard
555d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen    /* decoding the ISFs */
56e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard
575d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen    Disf_ns(indice, isf_q);
58e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard
595d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen    return;
60e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard}
61e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard
62e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard/********************************************************************
63e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard* Function:   Disf_ns()                                             *
64e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard*            ~~~~~~~~~                                              *
65e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard* Decoding of ISF parameters                                        *
66e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard*-------------------------------------------------------------------*
67e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard*  Arguments:                                                       *
68e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard*    indice[] : indices of the selected codebook entries            *
69e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard*    isf[]    : quantized ISFs (in frequency domain)                *
70e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard*********************************************************************/
71e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard
72e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgardvoid Disf_ns(
735d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen        Word16 * indice,                      /* input:  quantization indices                  */
745d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen        Word16 * isf_q                        /* input : ISF in the frequency domain (0..0.5)  */
755d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen        )
76e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard{
775d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen    Word16 i;
785d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen
795d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen    for (i = 0; i < 2; i++)
805d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen    {
815d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen        isf_q[i] = dico1_isf_noise[indice[0] * 2 + i];
825d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen    }
835d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen    for (i = 0; i < 3; i++)
845d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen    {
855d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen        isf_q[i + 2] = dico2_isf_noise[indice[1] * 3 + i];
865d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen    }
875d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen    for (i = 0; i < 3; i++)
885d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen    {
895d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen        isf_q[i + 5] = dico3_isf_noise[indice[2] * 3 + i];
905d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen    }
915d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen    for (i = 0; i < 4; i++)
925d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen    {
935d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen        isf_q[i + 8] = dico4_isf_noise[indice[3] * 4 + i];
945d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen    }
955d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen    for (i = 0; i < 4; i++)
965d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen    {
975d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen        isf_q[i + 12] = dico5_isf_noise[indice[4] * 4 + i];
985d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen    }
995d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen
1005d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen    for (i = 0; i < ORDER; i++)
1015d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen    {
1025d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen        isf_q[i] = add(isf_q[i], mean_isf_noise[i]);
1035d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen    }
1045d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen
1055d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen    Reorder_isf(isf_q, ISF_GAP, ORDER);
1065d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen
1075d5c3a132bb446ac78a37dfaac24a46cacf0dd73Marco Nelissen    return;
108e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard}
109e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard
110e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard
111e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard
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