1 files changed, 79 insertions, 78 deletions
diff --git a/src/myriadstream.cpp b/src/myriadstream.cpp
index 04f98ed..0e6fc89 100644
--- a/src/myriadstream.cpp
+++ b/src/myriadstream.cpp
@@ -6,19 +6,22 @@
 */
 #include "bu/myriadstream.h"
+#include "bu/sio.h"
+using Bu::sio;
+using Bu::Fmt;
 #include <string.h>
-Bu::MyriadStream::MyriadStream( Myriad &rMyriad, uint32_t uStream ) :
+Bu::MyriadStream::MyriadStream( Bu::Myriad &rMyriad,
+                Bu::Myriad::Stream *pStream ) :
        rMyriad( rMyriad ),
-        uStream( uStream ),
+        pStream( pStream ),
        pCurBlock( NULL ),
-        uCurBlock( uStream ),
+        iPos( 0 )
-        uSize( 0 ),
-        uBlockSize( rMyriad.iBlockSize ),
-        uPos( 0 )
 {
-        //printf("MyriadStream::allocated\n");
+        sio << "MyriadStream: Created, iId=" << pStream->iId << ", iSize="
+                << pStream->iSize << sio.nl;
        //pCurBlock = rMyriad.newBlock();
        //rMyriad.getBlock( uStream, pCurBlock );
        //uSize = pCurBlock->uBytesUsed;
@@ -26,7 +29,8 @@ Bu::MyriadStream::MyriadStream( Myriad &rMyriad, uint32_t uStream ) :
 Bu::MyriadStream::~MyriadStream()
 {
-        //printf("Destroying stream?\n");
+        if( pCurBlock )
+                rMyriad.releaseBlock( pCurBlock );
        //rMyriad.updateStreamSize( uStream, uSize );
        //rMyriad.deleteBlock( pCurBlock );
 }
@@ -37,57 +41,54 @@ void Bu::MyriadStream::close()
 size_t Bu::MyriadStream::read( void *pBuf, size_t nBytes )
 {
-        /*
+        sio << "MyriadStream: Read: Started, asked to read " << nBytes << "b."
-        if( nBytes == 0 )
+                << sio.nl;
+        if( nBytes <= 0 )
                return 0;
-        if( nBytes + uPos > uSize )
+        if( nBytes > pStream->iSize-iPos )
-                nBytes = uSize - uPos;
+                nBytes = pStream->iSize-iPos;
-        if( (uPos%uBlockSize)+nBytes < uBlockSize )
+        int iLeft = nBytes;
+        sio << "MyriadStream: Read: Started, going to read " << nBytes << "b."
+                << sio.nl;
+        if( pCurBlock == NULL )
        {
-                size_t iRead = nBytes;
+                sio << "MyriadStream: Read: No block loaded, loading initial block."
-                if( iRead > pCurBlock->uBytesUsed-(uPos%uBlockSize) )
+                        << sio.nl;
-                        iRead = pCurBlock->uBytesUsed-(uPos%uBlockSize);
+                pCurBlock = rMyriad.getBlock(
-                memcpy( pBuf, pCurBlock->pData+(uPos%uBlockSize), iRead );
+                        pStream->aBlocks[iPos/rMyriad.iBlockSize]
-                //printf("read buffill:  %ub, %u-%u/%u -> %d-%d/%d (a:%u)",
+                        );
-                //      iRead, uPos, uPos+iRead-1, uSize, 0, iRead-1, nBytes, uCurBlock );
-                uPos += iRead;
-                //printf(" -- %u\n", uPos%uBlockSize );
-                //printf("ra: block %u = %ub:%u (%ub total)\n",
-                //      uCurBlock, uPos, nBytes, uSize );
-                // This can't happen, if we're right on a boundery, it goes to the
-                // other case
-                //if( uPos%uBlockSize == 0 )
-                //      uCurBlock = rMyriad.getNextBlock( uCurBlock, pCurBlock, false );
-                return iRead;
        }
-        else
+        while( iLeft > 0 )
        {
-                size_t nTotal = 0;
+                int iCurBlock = pStream->aBlocks[iPos/rMyriad.iBlockSize];
-                for(;;)
+                if( pCurBlock->iBlockIndex != iCurBlock )
                {
-                        uint32_t iRead = nBytes;
+                        sio << "MyriadStream: Read: Loading new block " << iCurBlock << "."
-                        if( iRead > uBlockSize-(uPos%uBlockSize) )
+                                << sio.nl;
-                                iRead = uBlockSize-(uPos%uBlockSize);
+                        rMyriad.releaseBlock( pCurBlock );
-                        if( iRead > pCurBlock->uBytesUsed-(uPos%uBlockSize) )
+                        pCurBlock = rMyriad.getBlock( iCurBlock );
-                                iRead = pCurBlock->uBytesUsed-(uPos%uBlockSize);
-                        memcpy( ((char *)pBuf)+nTotal,
-                                pCurBlock->pData+(uPos%uBlockSize), iRead );
-                        //printf(" read buffill:  %ub, %u-%u/%u -> %d-%d/%d (b:%u)\n",
-                        //      iRead, uPos, uPos+iRead-1, uSize,
-                        //      nTotal, nTotal+nBytes-1, nBytes, uCurBlock );
-                        uPos += iRead;
-                        nBytes -= iRead;
-                        nTotal += iRead;
-                        //printf("rb: block %u = %ub:%u (%ub total)\n",
-                        //      uCurBlock, uPos, iRead, uSize );
-                        if( uPos%uBlockSize == 0 )
-                                uCurBlock = rMyriad.getNextBlock( uCurBlock, pCurBlock, false );
-                        if( nBytes == 0 || uPos >= uSize )
-                                return nTotal;
                }
-        }*/
-        return 0;
+                int iAmnt = Bu::min(
+                        rMyriad.iBlockSize - iPos%rMyriad.iBlockSize,
+                        iLeft
+                        );
+//              if( iLeft > iAmnt )
+//                      iAmnt = iLeft;
+                sio << "MyriadStream: Read: Copying out bytes: "
+                        << (iPos%rMyriad.iBlockSize) << " - "
+                        << iAmnt
+                        << ", " << iLeft << "b left." << sio.nl;
+                memcpy(
+                        pBuf,
+                        pCurBlock->pData+iPos%rMyriad.iBlockSize,
+                        iAmnt
+                        );
+                iPos += iAmnt;
+                pBuf = &((char *)pBuf)[iAmnt];
+                iLeft -= iAmnt;
+        }
+        return nBytes;
 }
 size_t Bu::MyriadStream::write( const void *pBuf, size_t nBytes )
@@ -101,22 +102,22 @@ size_t Bu::MyriadStream::write( const void *pBuf, size_t nBytes )
                uCurBlock = rMyriad.getNextBlock( uCurBlock, pCurBlock );
        } */
        /*
-        if( (uPos%uBlockSize)+nBytes < uBlockSize )
+        if( (iPos%uBlockSize)+nBytes < uBlockSize )
        {
-                //printf("wa: %u:%u:%u:%u -> ", uPos, uPos%uBlockSize, uSize, pCurBlock->uBytesUsed );
+                //printf("wa: %u:%u:%u:%u -> ", iPos, iPos%uBlockSize, uSize, pCurBlock->uBytesUsed );
-                memcpy( pCurBlock->pData+(uPos%uBlockSize), pBuf, nBytes );
+                memcpy( pCurBlock->pData+(iPos%uBlockSize), pBuf, nBytes );
                //printf("write buffill:  %ub, %u-%u/%u -> %d-%d/%d (a:%u:%u)\n",
                //      nBytes, 0, nBytes-1, nBytes,
-                //      uPos, uPos+nBytes-1, uSize, uCurBlock,
+                //      iPos, iPos+nBytes-1, uSize, uCurBlock,
                //      pCurBlock->uBytesUsed );
-                if( (uPos%uBlockSize)+nBytes > pCurBlock->uBytesUsed )
+                if( (iPos%uBlockSize)+nBytes > pCurBlock->uBytesUsed )
-                        pCurBlock->uBytesUsed = (uPos%uBlockSize)+nBytes;
+                        pCurBlock->uBytesUsed = (iPos%uBlockSize)+nBytes;
                rMyriad.setBlock( uCurBlock, pCurBlock );
-                uPos += nBytes;
+                iPos += nBytes;
-                if( uPos > uSize )
+                if( iPos > uSize )
-                        uSize = uPos;
+                        uSize = iPos;
                //printf("block %u = %ub (%ub total) %d:%u\n",
-                //      uCurBlock, pCurBlock->uBytesUsed, uSize, nBytes, uPos );
+                //      uCurBlock, pCurBlock->uBytesUsed, uSize, nBytes, iPos );
                return nBytes;
        }
        else
@@ -124,27 +125,27 @@ size_t Bu::MyriadStream::write( const void *pBuf, size_t nBytes )
                size_t nTotal = 0;
                for(;;)
                {
-                        uint32_t uNow = uBlockSize-(uPos%uBlockSize);
+                        uint32_t uNow = uBlockSize-(iPos%uBlockSize);
-                        //printf("uNow:  %u (%u-(%u%%%u)) %d req\n", uNow, uBlockSize, uPos, uBlockSize, nBytes );
+                        //printf("uNow:  %u (%u-(%u%%%u)) %d req\n", uNow, uBlockSize, iPos, uBlockSize, nBytes );
                        if( nBytes < uNow )
                                uNow = nBytes;
-                        memcpy( pCurBlock->pData+(uPos%uBlockSize),
+                        memcpy( pCurBlock->pData+(iPos%uBlockSize),
                                &((char *)pBuf)[nTotal], uNow );
                        //printf("write buffill:  %ub, %u-%u/%u -> %d-%d/%d (b:%u:%u)\n",
                        //      uNow, nTotal, nTotal+uNow-1, nBytes,
-                        //      uPos, uPos+uNow-1, uSize, uCurBlock, pCurBlock->uBytesUsed );
+                        //      iPos, iPos+uNow-1, uSize, uCurBlock, pCurBlock->uBytesUsed );
-                        if( (uPos%uBlockSize)+uNow > pCurBlock->uBytesUsed )
+                        if( (iPos%uBlockSize)+uNow > pCurBlock->uBytesUsed )
-                                pCurBlock->uBytesUsed = (uPos%uBlockSize)+uNow;
+                                pCurBlock->uBytesUsed = (iPos%uBlockSize)+uNow;
                        rMyriad.setBlock( uCurBlock, pCurBlock );
-                        uPos += uNow;
+                        iPos += uNow;
-                        if( uPos > uSize )
+                        if( iPos > uSize )
-                                uSize = uPos;
+                                uSize = iPos;
                        nTotal += uNow;
                        nBytes -= uNow;
                        //printf("wb: block %u = %ub (%ub total)\n",
                        //      uCurBlock, pCurBlock->uBytesUsed, uSize );
                        //if( pCurBlock->uBytesUsed == uBlockSize )
-                        if( uPos%uBlockSize == 0 )
+                        if( iPos%uBlockSize == 0 )
                                uCurBlock = rMyriad.getNextBlock( uCurBlock, pCurBlock );
                        if( nBytes == 0 )
                                return nTotal;
@@ -155,27 +156,27 @@ size_t Bu::MyriadStream::write( const void *pBuf, size_t nBytes )
 long Bu::MyriadStream::tell()
 {
-        return uPos;
+        return iPos;
 }
 void Bu::MyriadStream::seek( long offset )
 {
-        uPos += offset;
+        iPos += offset;
 }
 void Bu::MyriadStream::setPos( long pos )
 {
-        uPos = pos;
+        iPos = pos;
 }
 void Bu::MyriadStream::setPosEnd( long pos )
 {
-        uPos = uSize-pos-1;
+        iPos = pStream->iSize-pos-1;
 }
 bool Bu::MyriadStream::isEos()
 {
-        return true;
+        return iPos >= pStream->iSize;
 }
 bool Bu::MyriadStream::isOpen()

diff --git a/src/myriadstream.cpp b/src/myriadstream.cpp index 04f98ed..0e6fc89 100644 --- a/src/myriadstream.cpp +++ b/src/myriadstream.cpp
@@ -6,19 +6,22 @@
6	*/	6	*/
7		7
8	#include "bu/myriadstream.h"	8	#include "bu/myriadstream.h"
		9	#include "bu/sio.h"
		10
		11	using Bu::sio;
		12	using Bu::Fmt;
9		13
10	#include <string.h>	14	#include <string.h>
11		15
12	Bu::MyriadStream::MyriadStream( Myriad &rMyriad, uint32_t uStream ) :	16	Bu::MyriadStream::MyriadStream( Bu::Myriad &rMyriad,
		17	Bu::Myriad::Stream *pStream ) :
13	rMyriad( rMyriad ),	18	rMyriad( rMyriad ),
14	uStream( uStream ),	19	pStream( pStream ),
15	pCurBlock( NULL ),	20	pCurBlock( NULL ),
16	uCurBlock( uStream ),	21	iPos( 0 )
17	uSize( 0 ),
18	uBlockSize( rMyriad.iBlockSize ),
19	uPos( 0 )
20	{	22	{
21	//printf("MyriadStream::allocated\n");	23	sio << "MyriadStream: Created, iId=" << pStream->iId << ", iSize="
		24	<< pStream->iSize << sio.nl;
22	//pCurBlock = rMyriad.newBlock();	25	//pCurBlock = rMyriad.newBlock();
23	//rMyriad.getBlock( uStream, pCurBlock );	26	//rMyriad.getBlock( uStream, pCurBlock );
24	//uSize = pCurBlock->uBytesUsed;	27	//uSize = pCurBlock->uBytesUsed;
@@ -26,7 +29,8 @@ Bu::MyriadStream::MyriadStream( Myriad &rMyriad, uint32_t uStream ) :
26		29
27	Bu::MyriadStream::~MyriadStream()	30	Bu::MyriadStream::~MyriadStream()
28	{	31	{
29	//printf("Destroying stream?\n");	32	if( pCurBlock )
		33	rMyriad.releaseBlock( pCurBlock );
30	//rMyriad.updateStreamSize( uStream, uSize );	34	//rMyriad.updateStreamSize( uStream, uSize );
31	//rMyriad.deleteBlock( pCurBlock );	35	//rMyriad.deleteBlock( pCurBlock );
32	}	36	}
@@ -37,57 +41,54 @@ void Bu::MyriadStream::close()
37		41
38	size_t Bu::MyriadStream::read( void *pBuf, size_t nBytes )	42	size_t Bu::MyriadStream::read( void *pBuf, size_t nBytes )
39	{	43	{
40	/*	44	sio << "MyriadStream: Read: Started, asked to read " << nBytes << "b."
41	if( nBytes == 0 )	45	<< sio.nl;
		46	if( nBytes <= 0 )
42	return 0;	47	return 0;
43	if( nBytes + uPos > uSize )	48	if( nBytes > pStream->iSize-iPos )
44	nBytes = uSize - uPos;	49	nBytes = pStream->iSize-iPos;
45	if( (uPos%uBlockSize)+nBytes < uBlockSize )	50	int iLeft = nBytes;
		51	sio << "MyriadStream: Read: Started, going to read " << nBytes << "b."
		52	<< sio.nl;
		53	if( pCurBlock == NULL )
46	{	54	{
47	size_t iRead = nBytes;	55	sio << "MyriadStream: Read: No block loaded, loading initial block."
48	if( iRead > pCurBlock->uBytesUsed-(uPos%uBlockSize) )	56	<< sio.nl;
49	iRead = pCurBlock->uBytesUsed-(uPos%uBlockSize);	57	pCurBlock = rMyriad.getBlock(
50	memcpy( pBuf, pCurBlock->pData+(uPos%uBlockSize), iRead );	58	pStream->aBlocks[iPos/rMyriad.iBlockSize]
51	//printf("read buffill: %ub, %u-%u/%u -> %d-%d/%d (a:%u)",	59	);
52	// iRead, uPos, uPos+iRead-1, uSize, 0, iRead-1, nBytes, uCurBlock );
53	uPos += iRead;
54	//printf(" -- %u\n", uPos%uBlockSize );
55	//printf("ra: block %u = %ub:%u (%ub total)\n",
56	// uCurBlock, uPos, nBytes, uSize );
57
58	// This can't happen, if we're right on a boundery, it goes to the
59	// other case
60	//if( uPos%uBlockSize == 0 )
61	// uCurBlock = rMyriad.getNextBlock( uCurBlock, pCurBlock, false );
62	return iRead;
63	}	60	}
64	else	61	while( iLeft > 0 )
65	{	62	{
66	size_t nTotal = 0;	63	int iCurBlock = pStream->aBlocks[iPos/rMyriad.iBlockSize];
67	for(;;)	64	if( pCurBlock->iBlockIndex != iCurBlock )
68	{	65	{
69	uint32_t iRead = nBytes;	66	sio << "MyriadStream: Read: Loading new block " << iCurBlock << "."
70	if( iRead > uBlockSize-(uPos%uBlockSize) )	67	<< sio.nl;
71	iRead = uBlockSize-(uPos%uBlockSize);	68	rMyriad.releaseBlock( pCurBlock );
72	if( iRead > pCurBlock->uBytesUsed-(uPos%uBlockSize) )	69	pCurBlock = rMyriad.getBlock( iCurBlock );
73	iRead = pCurBlock->uBytesUsed-(uPos%uBlockSize);
74	memcpy( ((char *)pBuf)+nTotal,
75	pCurBlock->pData+(uPos%uBlockSize), iRead );
76	//printf(" read buffill: %ub, %u-%u/%u -> %d-%d/%d (b:%u)\n",
77	// iRead, uPos, uPos+iRead-1, uSize,
78	// nTotal, nTotal+nBytes-1, nBytes, uCurBlock );
79	uPos += iRead;
80	nBytes -= iRead;
81	nTotal += iRead;
82	//printf("rb: block %u = %ub:%u (%ub total)\n",
83	// uCurBlock, uPos, iRead, uSize );
84	if( uPos%uBlockSize == 0 )
85	uCurBlock = rMyriad.getNextBlock( uCurBlock, pCurBlock, false );
86	if( nBytes == 0 \|\| uPos >= uSize )
87	return nTotal;
88	}	70	}
89	}*/	71
90	return 0;	72	int iAmnt = Bu::min(
		73	rMyriad.iBlockSize - iPos%rMyriad.iBlockSize,
		74	iLeft
		75	);
		76	// if( iLeft > iAmnt )
		77	// iAmnt = iLeft;
		78	sio << "MyriadStream: Read: Copying out bytes: "
		79	<< (iPos%rMyriad.iBlockSize) << " - "
		80	<< iAmnt
		81	<< ", " << iLeft << "b left." << sio.nl;
		82	memcpy(
		83	pBuf,
		84	pCurBlock->pData+iPos%rMyriad.iBlockSize,
		85	iAmnt
		86	);
		87	iPos += iAmnt;
		88	pBuf = &((char *)pBuf)[iAmnt];
		89	iLeft -= iAmnt;
		90	}
		91	return nBytes;
91	}	92	}
92		93
93	size_t Bu::MyriadStream::write( const void *pBuf, size_t nBytes )	94	size_t Bu::MyriadStream::write( const void *pBuf, size_t nBytes )
@@ -101,22 +102,22 @@ size_t Bu::MyriadStream::write( const void *pBuf, size_t nBytes )
101	uCurBlock = rMyriad.getNextBlock( uCurBlock, pCurBlock );	102	uCurBlock = rMyriad.getNextBlock( uCurBlock, pCurBlock );
102	} */	103	} */
103	/*	104	/*
104	if( (uPos%uBlockSize)+nBytes < uBlockSize )	105	if( (iPos%uBlockSize)+nBytes < uBlockSize )
105	{	106	{
106	//printf("wa: %u:%u:%u:%u -> ", uPos, uPos%uBlockSize, uSize, pCurBlock->uBytesUsed );	107	//printf("wa: %u:%u:%u:%u -> ", iPos, iPos%uBlockSize, uSize, pCurBlock->uBytesUsed );
107	memcpy( pCurBlock->pData+(uPos%uBlockSize), pBuf, nBytes );	108	memcpy( pCurBlock->pData+(iPos%uBlockSize), pBuf, nBytes );
108	//printf("write buffill: %ub, %u-%u/%u -> %d-%d/%d (a:%u:%u)\n",	109	//printf("write buffill: %ub, %u-%u/%u -> %d-%d/%d (a:%u:%u)\n",
109	// nBytes, 0, nBytes-1, nBytes,	110	// nBytes, 0, nBytes-1, nBytes,
110	// uPos, uPos+nBytes-1, uSize, uCurBlock,	111	// iPos, iPos+nBytes-1, uSize, uCurBlock,
111	// pCurBlock->uBytesUsed );	112	// pCurBlock->uBytesUsed );
112	if( (uPos%uBlockSize)+nBytes > pCurBlock->uBytesUsed )	113	if( (iPos%uBlockSize)+nBytes > pCurBlock->uBytesUsed )
113	pCurBlock->uBytesUsed = (uPos%uBlockSize)+nBytes;	114	pCurBlock->uBytesUsed = (iPos%uBlockSize)+nBytes;
114	rMyriad.setBlock( uCurBlock, pCurBlock );	115	rMyriad.setBlock( uCurBlock, pCurBlock );
115	uPos += nBytes;	116	iPos += nBytes;
116	if( uPos > uSize )	117	if( iPos > uSize )
117	uSize = uPos;	118	uSize = iPos;
118	//printf("block %u = %ub (%ub total) %d:%u\n",	119	//printf("block %u = %ub (%ub total) %d:%u\n",
119	// uCurBlock, pCurBlock->uBytesUsed, uSize, nBytes, uPos );	120	// uCurBlock, pCurBlock->uBytesUsed, uSize, nBytes, iPos );
120	return nBytes;	121	return nBytes;
121	}	122	}
122	else	123	else
@@ -124,27 +125,27 @@ size_t Bu::MyriadStream::write( const void *pBuf, size_t nBytes )
124	size_t nTotal = 0;	125	size_t nTotal = 0;
125	for(;;)	126	for(;;)
126	{	127	{
127	uint32_t uNow = uBlockSize-(uPos%uBlockSize);	128	uint32_t uNow = uBlockSize-(iPos%uBlockSize);
128	//printf("uNow: %u (%u-(%u%%%u)) %d req\n", uNow, uBlockSize, uPos, uBlockSize, nBytes );	129	//printf("uNow: %u (%u-(%u%%%u)) %d req\n", uNow, uBlockSize, iPos, uBlockSize, nBytes );
129	if( nBytes < uNow )	130	if( nBytes < uNow )
130	uNow = nBytes;	131	uNow = nBytes;
131	memcpy( pCurBlock->pData+(uPos%uBlockSize),	132	memcpy( pCurBlock->pData+(iPos%uBlockSize),
132	&((char *)pBuf)[nTotal], uNow );	133	&((char *)pBuf)[nTotal], uNow );
133	//printf("write buffill: %ub, %u-%u/%u -> %d-%d/%d (b:%u:%u)\n",	134	//printf("write buffill: %ub, %u-%u/%u -> %d-%d/%d (b:%u:%u)\n",
134	// uNow, nTotal, nTotal+uNow-1, nBytes,	135	// uNow, nTotal, nTotal+uNow-1, nBytes,
135	// uPos, uPos+uNow-1, uSize, uCurBlock, pCurBlock->uBytesUsed );	136	// iPos, iPos+uNow-1, uSize, uCurBlock, pCurBlock->uBytesUsed );
136	if( (uPos%uBlockSize)+uNow > pCurBlock->uBytesUsed )	137	if( (iPos%uBlockSize)+uNow > pCurBlock->uBytesUsed )
137	pCurBlock->uBytesUsed = (uPos%uBlockSize)+uNow;	138	pCurBlock->uBytesUsed = (iPos%uBlockSize)+uNow;
138	rMyriad.setBlock( uCurBlock, pCurBlock );	139	rMyriad.setBlock( uCurBlock, pCurBlock );
139	uPos += uNow;	140	iPos += uNow;
140	if( uPos > uSize )	141	if( iPos > uSize )
141	uSize = uPos;	142	uSize = iPos;
142	nTotal += uNow;	143	nTotal += uNow;
143	nBytes -= uNow;	144	nBytes -= uNow;
144	//printf("wb: block %u = %ub (%ub total)\n",	145	//printf("wb: block %u = %ub (%ub total)\n",
145	// uCurBlock, pCurBlock->uBytesUsed, uSize );	146	// uCurBlock, pCurBlock->uBytesUsed, uSize );
146	//if( pCurBlock->uBytesUsed == uBlockSize )	147	//if( pCurBlock->uBytesUsed == uBlockSize )
147	if( uPos%uBlockSize == 0 )	148	if( iPos%uBlockSize == 0 )
148	uCurBlock = rMyriad.getNextBlock( uCurBlock, pCurBlock );	149	uCurBlock = rMyriad.getNextBlock( uCurBlock, pCurBlock );
149	if( nBytes == 0 )	150	if( nBytes == 0 )
150	return nTotal;	151	return nTotal;
@@ -155,27 +156,27 @@ size_t Bu::MyriadStream::write( const void *pBuf, size_t nBytes )
155		156
156	long Bu::MyriadStream::tell()	157	long Bu::MyriadStream::tell()
157	{	158	{
158	return uPos;	159	return iPos;
159	}	160	}
160		161
161	void Bu::MyriadStream::seek( long offset )	162	void Bu::MyriadStream::seek( long offset )
162	{	163	{
163	uPos += offset;	164	iPos += offset;
164	}	165	}
165		166
166	void Bu::MyriadStream::setPos( long pos )	167	void Bu::MyriadStream::setPos( long pos )
167	{	168	{
168	uPos = pos;	169	iPos = pos;
169	}	170	}
170		171
171	void Bu::MyriadStream::setPosEnd( long pos )	172	void Bu::MyriadStream::setPosEnd( long pos )
172	{	173	{
173	uPos = uSize-pos-1;	174	iPos = pStream->iSize-pos-1;
174	}	175	}
175		176
176	bool Bu::MyriadStream::isEos()	177	bool Bu::MyriadStream::isEos()
177	{	178	{
178	return true;	179	return iPos >= pStream->iSize;
179	}	180	}
180		181
181	bool Bu::MyriadStream::isOpen()	182	bool Bu::MyriadStream::isOpen()