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/*
* Copyright (C) 2007-2010 Xagasoft, All rights reserved.
*
* This file is part of the libbu++ library and is released under the
* terms of the license contained in the file LICENSE.
*/
#include "bu/myriad.h"
#include "bu/stream.h"
#include "bu/myriadstream.h"
#include <stdio.h>
#include "bu/sio.h"
using Bu::sio;
using Bu::Fmt;
#define Myriad_MAGIC_CODE ((unsigned char *)"\xFF\xC3\x99\xBD")
namespace Bu
{
subExceptionDef( MyriadException )
template<typename t> t blkDiv( t total, t block ) {
return (total/block)+((total%block==0)?(0):(1));
}
}
Bu::Myriad::Myriad( Bu::Stream &sStore ) :
sStore( sStore ),
iBlockSize( 0 ),
iBlocks( 0 ),
iUsed( 0 ),
bHeaderChanged( false )
{
}
Bu::Myriad::~Myriad()
{
if( !hActiveBlocks.isEmpty() )
{
sio << "Bu::Myriad::~Myriad(): Error: There are "
<< hActiveBlocks.getSize() << " unsynced blocks!" << sio.nl;
}
sync();
for( StreamArray::iterator i = aStreams.begin(); i; i++ )
{
delete *i;
}
}
void Bu::Myriad::sync()
{
updateHeader();
for( BlockHash::iterator i = hActiveBlocks.begin(); i; i++ )
{
if( (*i)->bChanged )
{
syncBlock( *i );
}
}
}
void Bu::Myriad::initialize()
{
sStore.setPosEnd( 0 );
int iSize = sStore.tell();
sStore.setPos( 0 );
unsigned char buf[4];
if( sStore.read( buf, 4 ) < 4 )
throw MyriadException("Input stream appears to be empty.");
if( memcmp( buf, Myriad_MAGIC_CODE, 4 ) )
{
throw MyriadException(
"Stream does not appear to be a valid Myriad format.");
}
sStore.read( buf, 2 );
if( buf[0] != 1 )
throw MyriadException(
"We can only handle version 1 for now.");
if( buf[1] != 32 )
throw MyriadException(
"We can only handle 32-bit words at the moment.");
sStore.read( &iBlockSize, 4 );
int iStreams;
sStore.read( &iStreams, 4 );
iBlocks = iSize/iBlockSize;
//sio << "Myriad: iSize=" << iSize << ", iBlockSize=" << iBlockSize
// << ", iBlocks=" << iBlocks << ", iStreams=" << iStreams << sio.nl;
int iHeaderSize = 14 + 8 + 4;
int iHeaderBlocks = 0; //blkDiv( iHeaderSize+4, iBlockSize );
while( iHeaderSize > iHeaderBlocks*iBlockSize )
{
iHeaderBlocks = blkDiv( iHeaderSize+4, iBlockSize );
iHeaderSize = 14 + 8 + 4*iHeaderBlocks;
}
//sio << "Myriad: iHeaderSize=" << iHeaderSize
// << ", iHeaderBlocks=" << iHeaderBlocks << sio.nl;
Stream *pFakeHdr = new Stream;
pFakeHdr->iId = 0;
pFakeHdr->iSize = iHeaderSize;
for( int j = 0; j < iHeaderBlocks; j++ )
{
pFakeHdr->aBlocks.append( j );
}
bsBlockUsed.setSize( iBlocks, true );
bool bCanSkip = false; // Can skip around, post initial header stream i/o
MyriadStream *pIn = new MyriadStream( *this, pFakeHdr );
pIn->setPos( sStore.tell() );
for( int j = 0; j < iStreams; j++ )
{
aStreams.append( new Stream() );
Stream &s = *aStreams[j];
pIn->read( &s.iId, 4 );
pIn->read( &s.iSize, 4 );
int iSBlocks = blkDiv(s.iSize, iBlockSize);
// sio << "Myriad: - Stream::iId=" << s.iId
// << ", Stream::iSize=" << s.iSize
// << ", Stream::aBlocks=" << iSBlocks
// << ", pIn->tell()=" << pIn->tell() << sio.nl;
for( int k = 0; k < iSBlocks; k++ )
{
int iBId;
pIn->read( &iBId, 4 );
// sio << "Myriad: - iBId=" << iBId
// << ", iStartPos=" << iBId*iBlockSize
// << ", pIn->tell()=" << pIn->tell() << sio.nl;
s.aBlocks.append( iBId );
bsBlockUsed.setBit( iBId );
if( (j == 0 && k == iHeaderBlocks-1) )
{
// sio << "Myriad: - End of prepartition, unlocking skipping."
// << sio.nl;
bCanSkip = true;
MyriadStream *pTmp = new MyriadStream( *this, aStreams[0] );
// sio << "Myriad - Position = " << pIn->tell() << sio.nl;
pTmp->setPos( pIn->tell() );
delete pIn;
delete pFakeHdr;
pIn = pTmp;
}
}
}
delete pIn;
//sio << "Myriad: Blocks used: " << bsBlockUsed.toString() << sio.nl;
}
void Bu::Myriad::initialize( int iBlockSize, int iPreAllocate )
{
int iHeaderSize = 14 + 8 + 4;
int iHeaderBlocks = 0; //blkDiv( iHeaderSize+4, iBlockSize );
char cBuf = 1;
int iBuf = 0;
Stream *pStr = new Stream;
pStr->iId = 0;
while( iHeaderSize > iHeaderBlocks*iBlockSize )
{
iHeaderBlocks = blkDiv( iHeaderSize+4, iBlockSize );
iHeaderSize = 14 + 8 + 4*iHeaderBlocks;
}
iPreAllocate += iHeaderBlocks;
//sio << "Myriad: iHeaderSize=" << iHeaderSize << ", iBlockSize="
// << iBlockSize << ", iHeaderBlocks=" << iHeaderBlocks << sio.nl;
bsBlockUsed.setSize( iPreAllocate, true );
char *pBlock = new char[iBlockSize];
memset( pBlock, 0, iBlockSize );
for( int j = 0; j < iPreAllocate; j++ )
{
sStore.write( pBlock, iBlockSize );
}
delete[] (char *)pBlock;
sStore.setPos( 0 );
// Magic number
sStore.write( Myriad_MAGIC_CODE, 4 );
// Version (0)
sStore.write( &cBuf, 1 );
// Bits per int
cBuf = 32;
sStore.write( &cBuf, 1 );
// The size of each block
sStore.write( &iBlockSize, 4 );
iBuf = 1;
// The number of streams
sStore.write( &iBuf, 4 );
// Stream header
iBuf = 0;
sStore.write( &iBuf, 4 );
sStore.write( &iHeaderSize, 4 );
for( iBuf = 0; iBuf < iHeaderBlocks; iBuf++ )
{
sStore.write( &iBuf, 4 );
}
this->iBlockSize = iBlockSize;
this->iBlocks = iPreAllocate;
pStr->iSize = sStore.tell();
// sio << "Myriad: Actual end of header stream = " << pStr->iSize << sio.nl;
pStr->iSize = iHeaderSize;
for( int j = 0; j < iHeaderBlocks; j++ )
{
pStr->aBlocks.append( j );
bsBlockUsed.setBit( j );
}
aStreams.append( pStr );
//sio << bsBlockUsed.toString() << " - " << pStr->aBlocks << sio.nl;
bHeaderChanged = true;
//hStreams.insert( 0, BlockArray( 0 ) );
}
void Bu::Myriad::updateHeader()
{
if( bHeaderChanged == false )
return;
if( !sStore.canWrite() )
return;
char cBuf;
int iBuf;
//for( StreamArray::iterator i = aStreams.begin(); i; i++ )
//{
// sio << "Myriad: Stream " << Fmt(4) << (*i)->iId << ": " << (*i)->aBlocks << sio.nl;
//}
// Compute the new size of the header.
int iHeaderSize = 14 + 8*aStreams.getSize();
// sio << "Myriad: updateHeader: aStreams.getSize() = " << aStreams.getSize()
// << sio.nl;
for( StreamArray::iterator i = aStreams.begin(); i; i++ )
{
iHeaderSize += 4*(*i)->aBlocks.getSize();
// sio << "Myriad: updateHeader: (*i)->aBlocks.getSize() = "
// << (*i)->aBlocks.getSize() << sio.nl;
}
int iNewBlocks = blkDiv( iHeaderSize, iBlockSize );
while( iNewBlocks > aStreams[0]->aBlocks.getSize() )
{
int iBlock = findEmptyBlock();
// sio << "Myriad: updateHeader: Appending block " << iBlock
// << " to header." << sio.nl;
aStreams[0]->aBlocks.append( iBlock );
bsBlockUsed.setBit( iBlock );
iHeaderSize += 4;
iNewBlocks = blkDiv( iHeaderSize, iBlockSize );
}
aStreams[0]->iSize = iHeaderSize;
// sio << "Myriad: updateHeader: iHeaderSize=" << iHeaderSize
// << ", iNewBlocks=" << iNewBlocks << ", curBlocks="
// << aStreams[0]->aBlocks.getSize() << sio.nl;
MyriadStream sHdr( *this, aStreams[0] );
sHdr.write( Myriad_MAGIC_CODE, 4 );
// Version (1)
cBuf = 1;
sHdr.write( &cBuf, 1 );
// Bits per int
cBuf = 32;
sHdr.write( &cBuf, 1 );
// The size of each block
sHdr.write( &iBlockSize, 4 );
iBuf = aStreams.getSize();
// The number of streams
sHdr.write( &iBuf, 4 );
for( StreamArray::iterator i = aStreams.begin(); i; i++ )
{
sHdr.write( &(*i)->iId, 4 );
sHdr.write( &(*i)->iSize, 4 );
int iUsedBlocks = blkDiv( (*i)->iSize, iBlockSize );
// for( BlockArray::iterator j = (*i)->aBlocks.begin(); j; j++ )
for( int j = 0; j < iUsedBlocks; j++ )
{
sHdr.write( &(*i)->aBlocks[j], 4 );
}
}
bHeaderChanged = false;
}
int Bu::Myriad::createStream( int iPreAllocate )
{
Stream *pStr = new Stream();
pStr->iId = aStreams.last()->iId+1;
//sio << "Myriad: New stream id=" << pStr->iId << ", iPreAllocate="
// << iPreAllocate << sio.nl;
pStr->iSize = 0;
aStreams.append( pStr );
for( int j = 0; j < iPreAllocate; j++ )
{
int iFreeBlock = findEmptyBlock();
// sio << "Myriad: Adding block " << iFreeBlock << sio.nl;
pStr->aBlocks.append( iFreeBlock );
bsBlockUsed.setBit( iFreeBlock );
}
bHeaderChanged = true;
return pStr->iId;
}
int Bu::Myriad::findEmptyBlock()
{
bHeaderChanged = true;
for( int j = 0; j < bsBlockUsed.getSize(); j++ )
{
if( bsBlockUsed.getBit( j ) == false )
return j;
}
// sio << "Myriad: findEmptyBlock(): No empty blocks, adding new one." << sio.nl;
bsBlockUsed.setSize( bsBlockUsed.getSize()+1, false );
sStore.setPos( iBlockSize*iBlocks );
char *pBlock = new char[iBlockSize];
memset( pBlock, 0, iBlockSize );
sStore.write( pBlock, iBlockSize );
delete[] pBlock;
return iBlocks++;
}
void Bu::Myriad::deleteStream( int /*iID*/ )
{
}
Bu::MyriadStream Bu::Myriad::openStream( int iId )
{
//sio << "Myriad: Request to open stream: " << iId << sio.nl;
return MyriadStream( *this, findStream( iId ) );
}
int Bu::Myriad::getBlockSize()
{
return iBlockSize;
}
int Bu::Myriad::getNumBlocks()
{
return iBlocks;
}
int Bu::Myriad::getNumUsedBlocks()
{
return iUsed;
}
Bu::Myriad::Stream *Bu::Myriad::findStream( int iId )
{
for( StreamArray::iterator i = aStreams.begin(); i; i++ )
{
if( (*i)->iId == iId )
return *i;
}
return NULL;
}
Bu::Myriad::Block *Bu::Myriad::getBlock( int iBlock )
{
// sio << "Myriad: Reading block " << iBlock << ", bytes "
// << iBlockSize*iBlock << "-" << iBlockSize*(iBlock+1) << sio.nl;
Block *pBlock = new Block;
pBlock->pData = new char[iBlockSize];
sStore.setPos( iBlockSize * iBlock );
sStore.read( pBlock->pData, iBlockSize );
pBlock->bChanged = false;
pBlock->iBlockIndex = iBlock;
hActiveBlocks.insert( iBlock, pBlock );
return pBlock;
}
void Bu::Myriad::releaseBlock( Bu::Myriad::Block *pBlock )
{
if( pBlock == NULL )
return;
// sio << "Myriad: Releasing block " << pBlock->iBlockIndex << sio.nl;
syncBlock( pBlock );
hActiveBlocks.erase( pBlock->iBlockIndex );
delete[] pBlock->pData;
delete pBlock;
}
void Bu::Myriad::syncBlock( Block *pBlock )
{
if( pBlock->bChanged )
{
// sio << "Myriad: - Block changed, writing back to stream." << sio.nl;
sStore.setPos( iBlockSize * pBlock->iBlockIndex );
sStore.write( pBlock->pData, iBlockSize );
pBlock->bChanged = false;
}
}
void Bu::Myriad::setStreamSize( Stream *pStream, long iSize )
{
sio << "Oh man, you have to implement Bu::Myriad::setStreamSize!!! (line "
<< __LINE__ << ")" << sio.nl;
}
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