mirror of
https://github.com/nillerusr/source-engine.git
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305 lines
7.8 KiB
C++
305 lines
7.8 KiB
C++
//========= Copyright Valve Corporation, All rights reserved. ============//
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//
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// Purpose:
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//
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//=============================================================================
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#include "audio_pch.h"
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#include "tier0/platform.h"
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#include "MPAFile.h" // also includes vbrheader.h
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#include "tier0/dbg.h"
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#ifndef MAKEFOURCC
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#define MAKEFOURCC(ch0, ch1, ch2, ch3) \
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((uint32)(BYTE)(ch0) | ((uint32)(BYTE)(ch1) << 8) | \
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((uint32)(BYTE)(ch2) << 16) | ((uint32)(BYTE)(ch3) << 24 ))
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#endif //defined(MAKEFOURCC)
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// XING Header offset: 1. index = lsf, 2. index = mono
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uint32 CVBRHeader::m_dwXINGOffsets[2][2] =
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{
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// MPEG 1 (not mono, mono)
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{ 32 + MPA_HEADER_SIZE, 17 + MPA_HEADER_SIZE },
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// MPEG 2/2.5
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{ 17 + MPA_HEADER_SIZE, 9 + MPA_HEADER_SIZE }
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};
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// first test with this static method, if it does exist
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bool CVBRHeader::IsVBRHeaderAvailable( CMPAFile* pMPAFile, VBRHeaderType& HeaderType, uint32& dwOffset )
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{
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Assert(pMPAFile);
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// where does VBR header begin (XING)
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uint32 dwNewOffset = dwOffset + m_dwXINGOffsets[pMPAFile->m_pMPAHeader->IsLSF()][pMPAFile->m_pMPAHeader->IsMono()];
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// check for XING header first
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if( CheckXING( pMPAFile, dwNewOffset ) )
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{
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HeaderType = XINGHeader;
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// seek offset back to header begin
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dwOffset = dwNewOffset - 4;
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return true;
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}
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// VBRI header always at fixed offset
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dwNewOffset = dwOffset + 32 + MPA_HEADER_SIZE;
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if( CheckVBRI( pMPAFile, dwNewOffset ) )
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{
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HeaderType = VBRIHeader;
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// seek offset back to header begin
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dwOffset = dwNewOffset - 4;
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return true;
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}
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HeaderType = NoHeader;
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return false;
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}
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CVBRHeader::CVBRHeader( CMPAFile* pMPAFile, VBRHeaderType HeaderType, uint32 dwOffset ) :
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m_pMPAFile( pMPAFile ), m_pnToc(NULL), m_HeaderType( HeaderType ), m_dwOffset(dwOffset), m_dwFrames(0), m_dwBytes(0)
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{
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switch( m_HeaderType )
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{
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case NoHeader:
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// no Header found
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throw CMPAException( CMPAException::NoVBRHeader, pMPAFile->GetFilename(), NULL, false );
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break;
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case XINGHeader:
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if( !ExtractXINGHeader( m_dwOffset ) )
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throw CMPAException( CMPAException::NoVBRHeader, pMPAFile->GetFilename(), NULL, false );
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break;
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case VBRIHeader:
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if( !ExtractVBRIHeader( m_dwOffset ) )
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throw CMPAException( CMPAException::NoVBRHeader, pMPAFile->GetFilename(), NULL, false );
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break;
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}
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// calc bitrate
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if( m_dwBytes > 0 && m_dwFrames > 0 )
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{
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// calc number of seconds
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m_dwBytesPerSec = m_pMPAFile->m_pMPAHeader->GetBytesPerSecond( m_dwFrames, m_dwBytes );
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}
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else // incomplete header found
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{
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throw CMPAException( CMPAException::IncompleteVBRHeader, pMPAFile->GetFilename(), NULL, false );
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}
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}
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bool CVBRHeader::CheckID( CMPAFile* pMPAFile, char ch0, char ch1, char ch2, char ch3, uint32& dwOffset )
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{
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return ( pMPAFile->ExtractBytes( dwOffset, 4 ) == MAKEFOURCC( ch3, ch2, ch1, ch0 ) );
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}
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bool CVBRHeader::CheckXING( CMPAFile* pMPAFile, uint32& dwOffset )
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{
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// XING ID found?
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if( !CheckID( pMPAFile, 'X', 'i', 'n', 'g', dwOffset) && !CheckID( pMPAFile, 'I', 'n', 'f', 'o', dwOffset) )
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return false;
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return true;
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}
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bool CVBRHeader::CheckVBRI( CMPAFile* pMPAFile, uint32& dwOffset )
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{
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// VBRI ID found?
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if( !CheckID( pMPAFile, 'V', 'B', 'R', 'I', dwOffset ) )
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return false;
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return true;
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}
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// currently not used
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bool CVBRHeader::ExtractLAMETag( uint32 dwOffset )
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{
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// LAME ID found?
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if( !CheckID( m_pMPAFile, 'L', 'A', 'M', 'E', dwOffset ) && !CheckID( m_pMPAFile, 'G', 'O', 'G', 'O', dwOffset ) )
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return false;
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return true;
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}
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bool CVBRHeader::ExtractXINGHeader( uint32 dwOffset )
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{
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/* XING VBR-Header
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size description
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4 'Xing' or 'Info'
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4 flags (indicates which fields are used)
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4 frames (optional)
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4 bytes (optional)
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100 toc (optional)
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4 a VBR quality indicator: 0=best 100=worst (optional)
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*/
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if( !CheckXING( m_pMPAFile, dwOffset ) )
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return false;
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uint32 dwFlags;
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// get flags (mandatory in XING header)
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dwFlags = m_pMPAFile->ExtractBytes( dwOffset, 4 );
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// extract total number of frames in file
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if(dwFlags & FRAMES_FLAG)
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m_dwFrames = m_pMPAFile->ExtractBytes(dwOffset,4);
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// extract total number of bytes in file
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if(dwFlags & BYTES_FLAG)
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m_dwBytes = m_pMPAFile->ExtractBytes(dwOffset,4);
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// extract TOC (for more accurate seeking)
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if (dwFlags & TOC_FLAG)
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{
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m_dwTableSize = 100;
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m_pnToc = new int[m_dwTableSize];
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if( m_pnToc )
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{
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for(uint32 i=0;i<m_dwTableSize;i++)
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m_pnToc[i] = m_pMPAFile->ExtractBytes( dwOffset, 1 );
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}
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}
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m_dwQuality = (uint32)-1;
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if(dwFlags & VBR_SCALE_FLAG )
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m_dwQuality = m_pMPAFile->ExtractBytes(dwOffset, 4);
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return true;
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}
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bool CVBRHeader::ExtractVBRIHeader( uint32 dwOffset )
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{
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/* FhG VBRI Header
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size description
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4 'VBRI' (ID)
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2 version
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2 delay
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2 quality
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4 # bytes
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4 # frames
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2 table size (for TOC)
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2 table scale (for TOC)
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2 size of table entry (max. size = 4 byte (must be stored in an integer))
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2 frames per table entry
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?? dynamic table consisting out of frames with size 1-4
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whole length in table size! (for TOC)
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*/
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if( !CheckVBRI( m_pMPAFile, dwOffset ) )
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return false;
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// extract all fields from header (all mandatory)
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m_dwVersion = m_pMPAFile->ExtractBytes(dwOffset, 2 );
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m_fDelay = (float)m_pMPAFile->ExtractBytes(dwOffset, 2 );
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m_dwQuality = m_pMPAFile->ExtractBytes(dwOffset, 2 );
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m_dwBytes = m_pMPAFile->ExtractBytes(dwOffset, 4 );
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m_dwFrames = m_pMPAFile->ExtractBytes(dwOffset, 4 );
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m_dwTableSize = m_pMPAFile->ExtractBytes(dwOffset, 2 ) + 1; //!!!
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m_dwTableScale = m_pMPAFile->ExtractBytes(dwOffset, 2 );
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m_dwBytesPerEntry = m_pMPAFile->ExtractBytes(dwOffset, 2 );
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m_dwFramesPerEntry = m_pMPAFile->ExtractBytes(dwOffset, 2 );
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// extract TOC (for more accurate seeking)
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m_pnToc = new int[m_dwTableSize];
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if( m_pnToc )
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{
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for ( unsigned int i = 0 ; i < m_dwTableSize ; i++)
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{
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m_pnToc[i] = m_pMPAFile->ExtractBytes(dwOffset, m_dwBytesPerEntry );
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}
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}
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return true;
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}
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CVBRHeader::~CVBRHeader(void)
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{
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if( m_pnToc )
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delete[] m_pnToc;
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}
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// get byte position for percentage value (fPercent) of file
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bool CVBRHeader::SeekPoint(float fPercent, uint32& dwSeekPoint)
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{
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if( !m_pnToc || m_dwBytes == 0 )
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return false;
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if( fPercent < 0.0f )
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fPercent = 0.0f;
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if( fPercent > 100.0f )
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fPercent = 100.0f;
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switch( m_HeaderType )
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{
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case XINGHeader:
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dwSeekPoint = SeekPointXING( fPercent );
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break;
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case VBRIHeader:
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dwSeekPoint = SeekPointVBRI( fPercent );
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break;
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}
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return true;
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}
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uint32 CVBRHeader::SeekPointXING(float fPercent) const
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{
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// interpolate in TOC to get file seek point in bytes
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int a;
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float fa, fb, fx;
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a = (int)fPercent;
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if( a > 99 ) a = 99;
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fa = (float)m_pnToc[a];
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if( a < 99 )
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{
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fb = (float)m_pnToc[a+1];
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}
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else
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{
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fb = 256.0f;
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}
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fx = fa + (fb-fa)*(fPercent-a);
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uint32 dwSeekpoint = (int)((1.0f/256.0f)*fx*m_dwBytes);
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return dwSeekpoint;
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}
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uint32 CVBRHeader::SeekPointVBRI(float fPercent) const
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{
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return SeekPointByTimeVBRI( (fPercent/100.0f) * m_pMPAFile->m_pMPAHeader->GetLengthSecond( m_dwFrames ) * 1000.0f );
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}
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uint32 CVBRHeader::SeekPointByTimeVBRI(float fEntryTimeMS) const
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{
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unsigned int i=0, fraction = 0;
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uint32 dwSeekPoint = 0;
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float fLengthMS;
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float fLengthMSPerTOCEntry;
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float fAccumulatedTimeMS = 0.0f ;
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fLengthMS = (float)m_pMPAFile->m_pMPAHeader->GetLengthSecond( m_dwFrames ) * 1000.0f ;
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fLengthMSPerTOCEntry = fLengthMS / (float)m_dwTableSize;
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if ( fEntryTimeMS > fLengthMS )
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fEntryTimeMS = fLengthMS;
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while ( fAccumulatedTimeMS <= fEntryTimeMS )
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{
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dwSeekPoint += m_pnToc[i++];
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fAccumulatedTimeMS += fLengthMSPerTOCEntry;
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}
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// Searched too far; correct result
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fraction = ( (int)(((( fAccumulatedTimeMS - fEntryTimeMS ) / fLengthMSPerTOCEntry )
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+ (1.0f/(2.0f*(float)m_dwFramesPerEntry))) * (float)m_dwFramesPerEntry));
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dwSeekPoint -= (uint32)((float)m_pnToc[i-1] * (float)(fraction)
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/ (float)m_dwFramesPerEntry);
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return dwSeekPoint;
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}
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