winamp/Src/vlb/block.cpp

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2024-09-24 12:54:57 +00:00
/* $Header: /cvs/root/winamp/vlb/block.cpp,v 1.1 2009/04/28 20:21:08 audiodsp Exp $ */
/***************************************************************************\
*
* Copyright 2000-2002 Dolby Laboratories, Inc. All Rights
* Reserved. Do not copy. Do not distribute.
* Confidential information.
*
* (C) copyright Fraunhofer - IIS (1998)
* All Rights Reserved
*
* filename: block.cpp
* project : MPEG-2 AAC Decoder
* contents/description: base class for CLongBlock, CShortBlock
*
\***************************************************************************/
#include <math.h> // pow()
#include "block.h"
#include "bitstream.h"
#include "channelinfo.h"
CBlock::CBlock (CChannelInfo &info)
: m_IcsInfo (info)
{
m_LongWindow [0] = m_OnlyLongWindowSine ;
m_ShortWindow [0] = m_OnlyShortWindowSine ;
#ifdef ONLY_SINE_WINDOW
m_LongWindow [1] = m_OnlyLongWindowSine ;
m_ShortWindow [1] = m_OnlyShortWindowSine ;
#else
m_LongWindow [1] = m_OnlyLongWindowKBD ;
m_ShortWindow [1] = m_OnlyShortWindowKBD ;
#endif
}
CBlock::~CBlock ()
{
}
int CBlock::DecodeHuffmanWord (CDolbyBitStream &bs, const unsigned int (*CodeBook) [HuffmanEntries])
{
unsigned int val, len ;
unsigned int index = 0, bits = HuffmanBits ;
while (true)
{
val = CodeBook [index][bs.Get (HuffmanBits)] ;
len = val >> 16 ;
if (len == 0)
{
index = val & 0xFFFF ;
bits += HuffmanBits ;
continue ;
}
else
{
if (len != bits)
{
bs.PushBack (bits - len) ;
}
val &= 0xFFFF ;
break ;
}
}
return val ;
}
int CBlock::GetEscape (CDolbyBitStream &bs, const int q)
{
int i, off, neg ;
if (q < 0)
{
if (q != -16) return q ;
neg = 1 ;
}
else
{
if (q != +16) return q ;
neg = 0;
}
for (i = 4 ; ; i++)
{
if (bs.Get (1) == 0)
break ;
}
if (i > 16)
{
off = bs.Get (i - 16) << 16 ;
off |= bs.Get (16) ;
}
else
{
off = bs.Get (i) ;
}
i = off + (1 << i) ;
if (neg) i = -i ;
return i ;
}
int CBlock::UnpackIndex (int idx, int *qp, const CodeBookDescription *hcb)
{
if (hcb->Dimension == 4)
{
int index = idx << 2 ;
qp [0] = hcb->NTuples [index] ;
qp [1] = hcb->NTuples [index + 1] ;
qp [2] = hcb->NTuples [index + 2] ;
qp [3] = hcb->NTuples [index + 3] ;
}
else
{
int index = idx << 1 ;
qp [0] = hcb->NTuples [index] ;
qp [1] = hcb->NTuples [index + 1] ;
}
return hcb->Dimension ;
}
float CBlock::InverseQuantize (int q)
{
if (q > 0)
{
if (q < InverseQuantTableSize)
{
return (m_InverseQuantTable [q]) ;
}
else
{
return (static_cast<float>(pow (static_cast<float>(q), 4.0F / 3.0F))) ;
}
}
else
{
q = -q ;
if (q < InverseQuantTableSize)
{
return (-m_InverseQuantTable [q]) ;
}
else
{
return (static_cast<float>(-pow (static_cast<float>(q), 4.0F / 3.0F))) ;
}
}
}
void CBlock::Read (CDolbyBitStream &bs, const int global_gain)
{
ReadSectionData (bs) ;
ReadScaleFactorData (bs, global_gain) ;
m_PulseData.Read (bs) ;
m_Tns.Read (m_IcsInfo, bs) ;
CVLBBitSequence GainControlDataPresent (1) ;
GainControlDataPresent.Read (bs) ;
if (GainControlDataPresent)
{
throw EUnimplemented () ;
}
ReadSpectralData (bs) ;
}
void CBlock::ApplyTools (void)
{
m_Tns.Apply (m_IcsInfo, *this) ;
}
CBlock &operator+= (CBlock &lhs, CBlock &rhs)
{
// operator+= sums up the spectral bins of two blocks
// in the frequency domain (must switch together)
// add two long blocks
if (lhs.m_IcsInfo.IsLongBlock () && rhs.m_IcsInfo.IsLongBlock ())
{
if (lhs.m_IcsInfo.GetWindowShape () == rhs.m_IcsInfo.GetWindowShape ())
{
for (int i = 0 ; i < CLongBlock::MaximumBins ; i++)
{
lhs.AccessSpectralData () [i] += rhs.AccessSpectralData () [i] ;
}
}
}
// add two short blocks
else if (lhs.m_IcsInfo.IsShortBlock () && rhs.m_IcsInfo.IsShortBlock ())
{
if (lhs.m_IcsInfo.GetWindowShape () == rhs.m_IcsInfo.GetWindowShape ())
{
for (int win = 0 ; win < CShortBlock::MaximumWindows ; win++)
{
for (int i = 0 ; i < CShortBlock::MaximumBins ; i++)
{
lhs.AccessSpectralData (win) [i] += rhs.AccessSpectralData (win) [i] ;
}
}
}
}
return lhs ;
}