215 lines
5.1 KiB
C++
215 lines
5.1 KiB
C++
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/* $Header: /cvs/root/winamp/vlb/tns.cpp,v 1.1 2009/04/28 20:21:11 audiodsp Exp $ */
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/***************************************************************************\
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*
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* Copyright 2000-2002 Dolby Laboratories, Inc. All Rights
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* Reserved. Do not copy. Do not distribute.
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* Confidential information.
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*
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* (C) copyright Fraunhofer - IIS (1998)
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* All Rights Reserved
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*
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* filename: tns.cpp
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* project : MPEG-2 AAC Decoder
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* contents/description: temporal noise shaping
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*
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\***************************************************************************/
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#include <math.h>
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#include "tns.h"
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#include "channelinfo.h"
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#include "block.h"
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CTns::CTns ()
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: m_TnsDataPresent (1)
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{
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}
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CTns::~CTns ()
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{
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}
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void CTns::Read (const CChannelInfo &info, CDolbyBitStream &bs)
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{
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m_TnsDataPresent.Read (bs) ;
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if (!m_TnsDataPresent) return ;
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CVLBBitSequence n_filt (info.IsLongBlock () ? 2 : 1) ;
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CVLBBitSequence length (info.IsLongBlock () ? 6 : 4) ;
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CVLBBitSequence order (info.IsLongBlock () ? 5 : 3) ;
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CVLBBitSequence direction (1) ;
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CVLBBitSequence coef_compress (1) ;
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CVLBBitSequence coef_res (1) ;
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for (int window = 0 ; window < info.GetWindowsPerFrame () ; window++)
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{
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m_NumberOfFilters [window] = n_filt.Read (bs) ;
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if (n_filt)
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{
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coef_res.Read (bs) ;
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int nextstopband = info.GetScaleFactorBandsTotal () ;
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for (int index = 0 ; index < n_filt ; index++)
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{
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CFilter &filter = m_Filter [window][index] ;
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length.Read (bs) ;
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filter.m_StartBand = nextstopband - length ;
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filter.m_StopBand = nextstopband ;
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nextstopband = filter.m_StartBand ;
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filter.m_Order = order.Read (bs) ;
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if (order)
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{
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filter.m_Direction = direction.Read (bs) ? -1 : 1 ;
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coef_compress.Read (bs) ;
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filter.m_Resolution = coef_res + 3 ;
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static const int sgn_mask [] = { 0x2, 0x4, 0x8 } ;
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static const int neg_mask [] = { ~0x3, ~0x7, ~0xF } ;
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int s_mask = sgn_mask [coef_res + 1 - coef_compress] ;
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int n_mask = neg_mask [coef_res + 1 - coef_compress] ;
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for (int i = 0 ; i < order ; i++)
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{
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CVLBBitSequence coef (filter.m_Resolution - coef_compress) ;
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coef.Read (bs) ;
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filter.m_Coeff [i] = ((int) coef & s_mask) ? ((int) coef | n_mask) : (int) coef ;
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}
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}
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}
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}
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}
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}
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void CTns::Apply (const CChannelInfo &info, CBlock &spectrum)
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{
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if (!m_TnsDataPresent) return ;
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float CoeffLPC [MaximumOrder + 1] ;
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for (int window = 0 ; window < info.GetWindowsPerFrame () ; window++)
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{
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for (int index = 0 ; index < m_NumberOfFilters [window] ; index++)
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{
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CFilter &filter = m_Filter [window][index] ;
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DecodeCoefficients (filter, CoeffLPC) ;
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int start = Minimum (filter.m_StartBand, info.GetMaximumTnsBands (),
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info.GetScaleFactorBandsTransmitted ()) ;
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start = info.GetScaleFactorBandOffsets () [start] ;
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int stop = Minimum (filter.m_StopBand, info.GetMaximumTnsBands (),
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info.GetScaleFactorBandsTransmitted ()) ;
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stop = info.GetScaleFactorBandOffsets () [stop] ;
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int size = stop - start ;
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if (size <= 0) continue ;
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Filter (&spectrum.AccessSpectralData (window) [start], size,
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filter.m_Direction, CoeffLPC, filter.m_Order) ;
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}
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}
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}
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void CTns::DecodeCoefficients (CFilter &filter, float *a)
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{
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float tmp [MaximumOrder + 1], b [MaximumOrder + 1] ;
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// Inverse quantization
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const float pi2 = 3.14159265358979323846F / 2.0F ;
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float iqfac = ((1 << (filter.m_Resolution - 1)) - 0.5F) / pi2 ;
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float iqfac_m = ((1 << (filter.m_Resolution - 1)) + 0.5F) / pi2 ;
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int i ;
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for (i = 0 ; i < filter.m_Order ; i++)
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{
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tmp [i + 1] = (float) sin (filter.m_Coeff [i] / ((filter.m_Coeff [i] >= 0) ? iqfac : iqfac_m)) ;
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}
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// Conversion to LPC coefficients - Markel and Gray, pg. 95
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a [0] = 1.0F ;
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for (int m = 1 ; m <= filter.m_Order ; m++)
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{
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b [0] = a [0] ;
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for (i = 1 ; i < m ; i++)
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{
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b [i] = a [i] + tmp [m] * a [m - i] ;
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}
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b [m] = tmp [m] ;
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for (i = 0 ; i <= m ; i++)
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{
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a [i] = b [i] ;
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}
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}
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}
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void CTns::Filter (float *spec, int size, int inc, float *lpc, int order)
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{
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// - Simple all-pole filter of order "order" defined by
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// y(n) = x(n) - a(2)*y(n-1) - ... - a(order+1)*y(n-order)
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//
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// - The state variables of the filter are initialized to zero every time
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//
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// - The output data is written over the input data ("in-place operation")
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//
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// - An input vector of "size" samples is processed and the index increment
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// to the next data sample is given by "inc"
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int i, j;
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float y, state [MaximumOrder] ;
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for (i = 0 ; i < order ; i++)
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{
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state [i] = 0.0F ;
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}
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if (inc == -1)
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{
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spec += size - 1 ;
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}
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for (i = 0 ; i < size ; i++)
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{
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y = *spec;
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for (j = 0 ; j < order ; j++)
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{
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y -= lpc [j + 1] * state [j] ;
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}
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for (j = order - 1 ; j > 0 ; j--)
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{
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state [j] = state [j - 1] ;
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}
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state [0] = y ;
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*spec = y ;
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spec += inc ;
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}
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}
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