1 files changed, 184 insertions, 184 deletions
diff --git a/src/stable/lzma.cpp b/src/stable/lzma.cpp
index 9df8f57..9ec2ce0 100644
--- a/src/stable/lzma.cpp
+++ b/src/stable/lzma.cpp
@@ -15,234 +15,234 @@
 using namespace Bu;
 Bu::Lzma::Lzma( Bu::Stream &rNext, int nCompression, Format eFmt ) :
-        Bu::Filter( rNext ),
+    Bu::Filter( rNext ),
-        prState( NULL ),
+    prState( NULL ),
-        nCompression( nCompression ),
+    nCompression( nCompression ),
-        sTotalOut( 0 ),
+    sTotalOut( 0 ),
-        eFmt( eFmt ),
+    eFmt( eFmt ),
-        bEos( false )
+    bEos( false )
 {
-        TRACE( nCompression );
+    TRACE( nCompression );
-        start();
+    start();
 }
 Bu::Lzma::~Lzma()
 {
-        TRACE();
+    TRACE();
-        stop();
+    stop();
 }
 void Bu::Lzma::start()
 {
-        TRACE();
+    TRACE();
-        nBufSize = 64*1024;
+    nBufSize = 64*1024;
-        pBuf = new char[nBufSize];
+    pBuf = new char[nBufSize];
 }
 Bu::size Bu::Lzma::stop()
 {
-        TRACE();
+    TRACE();
-        if( pState )
+    if( pState )
-        {
+    {
-                if( bReading )
+        if( bReading )
-                {
+        {
-                        lzma_end( pState );
+            lzma_end( pState );
-                        delete[] pBuf;
+            delete[] pBuf;
-                        pBuf = NULL;
+            pBuf = NULL;
-                        delete pState;
+            delete pState;
-                        prState = NULL;
+            prState = NULL;
-                        return 0;
+            return 0;
-                }
+        }
-                else
+        else
-                {
+        {
-                        for(;;)
+            for(;;)
-                        {
+            {
-                                pState->next_in = NULL;
+                pState->next_in = NULL;
-                                pState->avail_in = 0;
+                pState->avail_in = 0;
-                                pState->avail_out = nBufSize;
+                pState->avail_out = nBufSize;
-                                pState->next_out = (uint8_t *)pBuf;
+                pState->next_out = (uint8_t *)pBuf;
-                                int res = lzma_code( pState, LZMA_FINISH );
+                int res = lzma_code( pState, LZMA_FINISH );
-                                if( pState->avail_out < nBufSize )
+                if( pState->avail_out < nBufSize )
-                                {
+                {
-                                        sTotalOut += rNext.write( pBuf, nBufSize-pState->avail_out );
+                    sTotalOut += rNext.write( pBuf, nBufSize-pState->avail_out );
-                                }
+                }
-                                if( res == LZMA_STREAM_END )
+                if( res == LZMA_STREAM_END )
-                                        break;
+                    break;
-                        }
+            }
-                        lzma_end( pState );
+            lzma_end( pState );
-                        delete[] pBuf;
+            delete[] pBuf;
-                        pBuf = NULL;
+            pBuf = NULL;
-                        delete pState;
+            delete pState;
-                        prState = NULL;
+            prState = NULL;
-                        return sTotalOut;
+            return sTotalOut;
-                }
+        }
-        }
+    }
-        return 0;
+    return 0;
 }
 void Bu::Lzma::lzmaError( int code )
 {
-        TRACE( code );
+    TRACE( code );
-        switch( code )
+    switch( code )
-        {
+    {
-                case LZMA_OK:
+        case LZMA_OK:
-                case LZMA_STREAM_END:
+        case LZMA_STREAM_END:
-                case LZMA_NO_CHECK:
+        case LZMA_NO_CHECK:
-                case LZMA_UNSUPPORTED_CHECK:
+        case LZMA_UNSUPPORTED_CHECK:
-                        break;
+            break;
-                case LZMA_MEM_ERROR:
+        case LZMA_MEM_ERROR:
-                        throw ExceptionBase("Lzma: Memory allocation error.");
+            throw ExceptionBase("Lzma: Memory allocation error.");
-                case LZMA_MEMLIMIT_ERROR:
+        case LZMA_MEMLIMIT_ERROR:
-                        throw ExceptionBase("Lzma: Memory usage limit was reached.");
+            throw ExceptionBase("Lzma: Memory usage limit was reached.");
-                case LZMA_FORMAT_ERROR:
+        case LZMA_FORMAT_ERROR:
-                        throw ExceptionBase("Lzma: File format not recognized.");
+            throw ExceptionBase("Lzma: File format not recognized.");
-                case LZMA_OPTIONS_ERROR:
+        case LZMA_OPTIONS_ERROR:
-                        throw ExceptionBase("Lzma: Invalid or unsupported options.");
+            throw ExceptionBase("Lzma: Invalid or unsupported options.");
-                case LZMA_DATA_ERROR:
+        case LZMA_DATA_ERROR:
-                        throw ExceptionBase("Lzma: Data is corrupt.");
+            throw ExceptionBase("Lzma: Data is corrupt.");
-                case LZMA_BUF_ERROR:
+        case LZMA_BUF_ERROR:
-                        throw ExceptionBase("Lzma: No progress is possible.");
+            throw ExceptionBase("Lzma: No progress is possible.");
-                case LZMA_PROG_ERROR:
+        case LZMA_PROG_ERROR:
-                        throw ExceptionBase("Lzma: Programming error.");
+            throw ExceptionBase("Lzma: Programming error.");
-                default:
+        default:
-                        throw ExceptionBase("Lzma: Unknown error encountered." );
+            throw ExceptionBase("Lzma: Unknown error encountered." );
-        }
+    }
 }
 Bu::size Bu::Lzma::read( void *pData, Bu::size nBytes )
 {
-        TRACE( pData, nBytes );
+    TRACE( pData, nBytes );
-        if( !pState )
+    if( !pState )
-        {
+    {
-                prState = new ::lzma_stream;
+        prState = new ::lzma_stream;
-                lzma_stream zEmpty = LZMA_STREAM_INIT;
+        lzma_stream zEmpty = LZMA_STREAM_INIT;
-                Bu::memcpy( prState, &zEmpty, sizeof(lzma_stream) );
+        Bu::memcpy( prState, &zEmpty, sizeof(lzma_stream) );
-                bReading = true;
+        bReading = true;
-                lzmaError( lzma_auto_decoder( pState, UINT64_MAX, 0 ) );
+        lzmaError( lzma_auto_decoder( pState, UINT64_MAX, 0 ) );
-                pState->next_in = (uint8_t *)pBuf;
+        pState->next_in = (uint8_t *)pBuf;
-                pState->avail_in = 0;
+        pState->avail_in = 0;
-        }
+    }
-        if( bReading == false )
+    if( bReading == false )
-                throw ExceptionBase("This lzma filter is in writing mode, you can't read.");
+        throw ExceptionBase("This lzma filter is in writing mode, you can't read.");
-        int nRead = 0;
+    int nRead = 0;
-        int nReadTotal = pState->total_out;
+    int nReadTotal = pState->total_out;
-        pState->next_out = (uint8_t *)pData;
+    pState->next_out = (uint8_t *)pData;
-        pState->avail_out = nBytes;
+    pState->avail_out = nBytes;
-        for(;;)
+    for(;;)
-        {
+    {
-                int ret = lzma_code( pState, LZMA_RUN );
+        int ret = lzma_code( pState, LZMA_RUN );
-//              printf("inflate returned %d; avail in=%d, out=%d\n", ret,
+//      printf("inflate returned %d; avail in=%d, out=%d\n", ret,
-//                              pState->avail_in, pState->avail_out );
+//              pState->avail_in, pState->avail_out );
-        
+    
-                nReadTotal += nRead-pState->avail_out;
+        nReadTotal += nRead-pState->avail_out;
-                if( ret == LZMA_STREAM_END )
+        if( ret == LZMA_STREAM_END )
-                {
+        {
-                        bEos = true;
+            bEos = true;
-                        if( pState->avail_in > 0 )
+            if( pState->avail_in > 0 )
-                        {
+            {
-                                if( rNext.isSeekable() )
+                if( rNext.isSeekable() )
-                                {
+                {
-                                        rNext.seek( -pState->avail_in );
+                    rNext.seek( -pState->avail_in );
-                                }
+                }
-                        }
+            }
-                        return nBytes-pState->avail_out;
+            return nBytes-pState->avail_out;
-                }
+        }
-//              if( ret != LZMA_BUF_ERROR )
+//      if( ret != LZMA_BUF_ERROR )
-                        lzmaError( ret );
+            lzmaError( ret );
-                if( pState->avail_out )
+        if( pState->avail_out )
-                {
+        {
-                        if( pState->avail_in == 0 )
+            if( pState->avail_in == 0 )
-                        {
+            {
-                                nRead = rNext.read( pBuf, nBufSize );
+                nRead = rNext.read( pBuf, nBufSize );
-                                if( nRead == 0 && rNext.isEos() )
+                if( nRead == 0 && rNext.isEos() )
-                                {
+                {
-                                        throw Bu::ExceptionBase("Premature end of underlying "
+                    throw Bu::ExceptionBase("Premature end of underlying "
-                                                        "stream found reading deflate stream.");
+                            "stream found reading deflate stream.");
-                                }
+                }
-                                pState->next_in = (uint8_t *)pBuf;
+                pState->next_in = (uint8_t *)pBuf;
-                                pState->avail_in = nRead;
+                pState->avail_in = nRead;
-                        }
+            }
-                }
+        }
-                else
+        else
-                {
+        {
-                        return nBytes-pState->avail_out;
+            return nBytes-pState->avail_out;
-                }
+        }
-        }
+    }
-        return 0;
+    return 0;
 }
 Bu::size Bu::Lzma::write( const void *pData, Bu::size nBytes )
 {
-        TRACE( pData, nBytes );
+    TRACE( pData, nBytes );
-        if( !pState )
+    if( !pState )
-        {
+    {
-                prState = new ::lzma_stream;
+        prState = new ::lzma_stream;
-                lzma_stream zEmpty = LZMA_STREAM_INIT;
+        lzma_stream zEmpty = LZMA_STREAM_INIT;
-                Bu::memcpy( prState, &zEmpty, sizeof(lzma_stream) );
+        Bu::memcpy( prState, &zEmpty, sizeof(lzma_stream) );
-                bReading = false;
+        bReading = false;
-                if( eFmt == Xz )
+        if( eFmt == Xz )
-                        lzmaError(
+            lzmaError(
-                                lzma_easy_encoder( pState, nCompression, LZMA_CHECK_CRC64 )
+                lzma_easy_encoder( pState, nCompression, LZMA_CHECK_CRC64 )
-                                );
+                );
-                else if( eFmt == LzmaAlone )
+        else if( eFmt == LzmaAlone )
-                {
+        {
-                        lzma_options_lzma opt;
+            lzma_options_lzma opt;
-                        lzma_lzma_preset( &opt, nCompression );
+            lzma_lzma_preset( &opt, nCompression );
-                        lzmaError( lzma_alone_encoder( pState, &opt ) );
+            lzmaError( lzma_alone_encoder( pState, &opt ) );
-                }
+        }
-                else
+        else
-                        throw Bu::ExceptionBase("Invalid format for lzma.");
+            throw Bu::ExceptionBase("Invalid format for lzma.");
-        }
+    }
-        if( bReading == true )
+    if( bReading == true )
-                throw ExceptionBase("This lzma filter is in reading mode, you can't write.");
+        throw ExceptionBase("This lzma filter is in reading mode, you can't write.");
-        pState->next_in = (uint8_t *)pData;
+    pState->next_in = (uint8_t *)pData;
-        pState->avail_in = nBytes;
+    pState->avail_in = nBytes;
-        for(;;)
+    for(;;)
-        {
+    {
-                pState->avail_out = nBufSize;
+        pState->avail_out = nBufSize;
-                pState->next_out = (uint8_t *)pBuf;
+        pState->next_out = (uint8_t *)pBuf;
-                lzmaError( lzma_code( pState, LZMA_RUN ) );
+        lzmaError( lzma_code( pState, LZMA_RUN ) );
-                if( pState->avail_out < nBufSize )
+        if( pState->avail_out < nBufSize )
-                {
+        {
-                        sTotalOut += rNext.write( pBuf, nBufSize-pState->avail_out );
+            sTotalOut += rNext.write( pBuf, nBufSize-pState->avail_out );
-                }
+        }
-                if( pState->avail_in == 0 )
+        if( pState->avail_in == 0 )
-                        break;
+            break;
-        }
+    }
-        return nBytes;
+    return nBytes;
 }
 bool Bu::Lzma::isOpen()
 {
-        TRACE();
+    TRACE();
-        return (pState != NULL);
+    return (pState != NULL);
 }
 bool Bu::Lzma::isEos()
 {
-        TRACE();
+    TRACE();
-        return bEos;
+    return bEos;
 }
 Bu::size Bu::Lzma::getCompressedSize()
 {
-        return sTotalOut;
+    return sTotalOut;
 }

diff --git a/src/stable/lzma.cpp b/src/stable/lzma.cpp index 9df8f57..9ec2ce0 100644 --- a/src/stable/lzma.cpp +++ b/src/stable/lzma.cpp
@@ -15,234 +15,234 @@
15	using namespace Bu;	15	using namespace Bu;
16		16
17	Bu::Lzma::Lzma( Bu::Stream &rNext, int nCompression, Format eFmt ) :	17	Bu::Lzma::Lzma( Bu::Stream &rNext, int nCompression, Format eFmt ) :
18	Bu::Filter( rNext ),	18	Bu::Filter( rNext ),
19	prState( NULL ),	19	prState( NULL ),
20	nCompression( nCompression ),	20	nCompression( nCompression ),
21	sTotalOut( 0 ),	21	sTotalOut( 0 ),
22	eFmt( eFmt ),	22	eFmt( eFmt ),
23	bEos( false )	23	bEos( false )
24	{	24	{
25	TRACE( nCompression );	25	TRACE( nCompression );
26	start();	26	start();
27	}	27	}
28		28
29	Bu::Lzma::~Lzma()	29	Bu::Lzma::~Lzma()
30	{	30	{
31	TRACE();	31	TRACE();
32	stop();	32	stop();
33	}	33	}
34		34
35	void Bu::Lzma::start()	35	void Bu::Lzma::start()
36	{	36	{
37	TRACE();	37	TRACE();
38	nBufSize = 64*1024;	38	nBufSize = 64*1024;
39	pBuf = new char[nBufSize];	39	pBuf = new char[nBufSize];
40	}	40	}
41		41
42	Bu::size Bu::Lzma::stop()	42	Bu::size Bu::Lzma::stop()
43	{	43	{
44	TRACE();	44	TRACE();
45	if( pState )	45	if( pState )
46	{	46	{
47	if( bReading )	47	if( bReading )
48	{	48	{
49	lzma_end( pState );	49	lzma_end( pState );
50	delete[] pBuf;	50	delete[] pBuf;
51	pBuf = NULL;	51	pBuf = NULL;
52	delete pState;	52	delete pState;
53	prState = NULL;	53	prState = NULL;
54	return 0;	54	return 0;
55	}	55	}
56	else	56	else
57	{	57	{
58	for(;;)	58	for(;;)
59	{	59	{
60	pState->next_in = NULL;	60	pState->next_in = NULL;
61	pState->avail_in = 0;	61	pState->avail_in = 0;
62	pState->avail_out = nBufSize;	62	pState->avail_out = nBufSize;
63	pState->next_out = (uint8_t *)pBuf;	63	pState->next_out = (uint8_t *)pBuf;
64	int res = lzma_code( pState, LZMA_FINISH );	64	int res = lzma_code( pState, LZMA_FINISH );
65	if( pState->avail_out < nBufSize )	65	if( pState->avail_out < nBufSize )
66	{	66	{
67	sTotalOut += rNext.write( pBuf, nBufSize-pState->avail_out );	67	sTotalOut += rNext.write( pBuf, nBufSize-pState->avail_out );
68	}	68	}
69	if( res == LZMA_STREAM_END )	69	if( res == LZMA_STREAM_END )
70	break;	70	break;
71	}	71	}
72	lzma_end( pState );	72	lzma_end( pState );
73	delete[] pBuf;	73	delete[] pBuf;
74	pBuf = NULL;	74	pBuf = NULL;
75	delete pState;	75	delete pState;
76	prState = NULL;	76	prState = NULL;
77	return sTotalOut;	77	return sTotalOut;
78	}	78	}
79	}	79	}
80	return 0;	80	return 0;
81	}	81	}
82		82
83	void Bu::Lzma::lzmaError( int code )	83	void Bu::Lzma::lzmaError( int code )
84	{	84	{
85	TRACE( code );	85	TRACE( code );
86	switch( code )	86	switch( code )
87	{	87	{
88	case LZMA_OK:	88	case LZMA_OK:
89	case LZMA_STREAM_END:	89	case LZMA_STREAM_END:
90	case LZMA_NO_CHECK:	90	case LZMA_NO_CHECK:
91	case LZMA_UNSUPPORTED_CHECK:	91	case LZMA_UNSUPPORTED_CHECK:
92	break;	92	break;
93		93
94	case LZMA_MEM_ERROR:	94	case LZMA_MEM_ERROR:
95	throw ExceptionBase("Lzma: Memory allocation error.");	95	throw ExceptionBase("Lzma: Memory allocation error.");
96		96
97	case LZMA_MEMLIMIT_ERROR:	97	case LZMA_MEMLIMIT_ERROR:
98	throw ExceptionBase("Lzma: Memory usage limit was reached.");	98	throw ExceptionBase("Lzma: Memory usage limit was reached.");
99		99
100	case LZMA_FORMAT_ERROR:	100	case LZMA_FORMAT_ERROR:
101	throw ExceptionBase("Lzma: File format not recognized.");	101	throw ExceptionBase("Lzma: File format not recognized.");
102		102
103	case LZMA_OPTIONS_ERROR:	103	case LZMA_OPTIONS_ERROR:
104	throw ExceptionBase("Lzma: Invalid or unsupported options.");	104	throw ExceptionBase("Lzma: Invalid or unsupported options.");
105		105
106	case LZMA_DATA_ERROR:	106	case LZMA_DATA_ERROR:
107	throw ExceptionBase("Lzma: Data is corrupt.");	107	throw ExceptionBase("Lzma: Data is corrupt.");
108		108
109	case LZMA_BUF_ERROR:	109	case LZMA_BUF_ERROR:
110	throw ExceptionBase("Lzma: No progress is possible.");	110	throw ExceptionBase("Lzma: No progress is possible.");
111		111
112	case LZMA_PROG_ERROR:	112	case LZMA_PROG_ERROR:
113	throw ExceptionBase("Lzma: Programming error.");	113	throw ExceptionBase("Lzma: Programming error.");
114		114
115	default:	115	default:
116	throw ExceptionBase("Lzma: Unknown error encountered." );	116	throw ExceptionBase("Lzma: Unknown error encountered." );
117	}	117	}
118	}	118	}
119		119
120	Bu::size Bu::Lzma::read( void *pData, Bu::size nBytes )	120	Bu::size Bu::Lzma::read( void *pData, Bu::size nBytes )
121	{	121	{
122	TRACE( pData, nBytes );	122	TRACE( pData, nBytes );
123	if( !pState )	123	if( !pState )
124	{	124	{
125	prState = new ::lzma_stream;	125	prState = new ::lzma_stream;
126	lzma_stream zEmpty = LZMA_STREAM_INIT;	126	lzma_stream zEmpty = LZMA_STREAM_INIT;
127	Bu::memcpy( prState, &zEmpty, sizeof(lzma_stream) );	127	Bu::memcpy( prState, &zEmpty, sizeof(lzma_stream) );
128		128
129	bReading = true;	129	bReading = true;
130	lzmaError( lzma_auto_decoder( pState, UINT64_MAX, 0 ) );	130	lzmaError( lzma_auto_decoder( pState, UINT64_MAX, 0 ) );
131	pState->next_in = (uint8_t *)pBuf;	131	pState->next_in = (uint8_t *)pBuf;
132	pState->avail_in = 0;	132	pState->avail_in = 0;
133	}	133	}
134	if( bReading == false )	134	if( bReading == false )
135	throw ExceptionBase("This lzma filter is in writing mode, you can't read.");	135	throw ExceptionBase("This lzma filter is in writing mode, you can't read.");
136		136
137	int nRead = 0;	137	int nRead = 0;
138	int nReadTotal = pState->total_out;	138	int nReadTotal = pState->total_out;
139	pState->next_out = (uint8_t *)pData;	139	pState->next_out = (uint8_t *)pData;
140	pState->avail_out = nBytes;	140	pState->avail_out = nBytes;
141	for(;;)	141	for(;;)
142	{	142	{
143	int ret = lzma_code( pState, LZMA_RUN );	143	int ret = lzma_code( pState, LZMA_RUN );
144	// printf("inflate returned %d; avail in=%d, out=%d\n", ret,	144	// printf("inflate returned %d; avail in=%d, out=%d\n", ret,
145	// pState->avail_in, pState->avail_out );	145	// pState->avail_in, pState->avail_out );
146		146
147	nReadTotal += nRead-pState->avail_out;	147	nReadTotal += nRead-pState->avail_out;
148		148
149	if( ret == LZMA_STREAM_END )	149	if( ret == LZMA_STREAM_END )
150	{	150	{
151	bEos = true;	151	bEos = true;
152	if( pState->avail_in > 0 )	152	if( pState->avail_in > 0 )
153	{	153	{
154	if( rNext.isSeekable() )	154	if( rNext.isSeekable() )
155	{	155	{
156	rNext.seek( -pState->avail_in );	156	rNext.seek( -pState->avail_in );
157	}	157	}
158	}	158	}
159	return nBytes-pState->avail_out;	159	return nBytes-pState->avail_out;
160	}	160	}
161	// if( ret != LZMA_BUF_ERROR )	161	// if( ret != LZMA_BUF_ERROR )
162	lzmaError( ret );	162	lzmaError( ret );
163		163
164	if( pState->avail_out )	164	if( pState->avail_out )
165	{	165	{
166	if( pState->avail_in == 0 )	166	if( pState->avail_in == 0 )
167	{	167	{
168	nRead = rNext.read( pBuf, nBufSize );	168	nRead = rNext.read( pBuf, nBufSize );
169	if( nRead == 0 && rNext.isEos() )	169	if( nRead == 0 && rNext.isEos() )
170	{	170	{
171	throw Bu::ExceptionBase("Premature end of underlying "	171	throw Bu::ExceptionBase("Premature end of underlying "
172	"stream found reading deflate stream.");	172	"stream found reading deflate stream.");
173	}	173	}
174	pState->next_in = (uint8_t *)pBuf;	174	pState->next_in = (uint8_t *)pBuf;
175	pState->avail_in = nRead;	175	pState->avail_in = nRead;
176	}	176	}
177	}	177	}
178	else	178	else
179	{	179	{
180	return nBytes-pState->avail_out;	180	return nBytes-pState->avail_out;
181	}	181	}
182	}	182	}
183	return 0;	183	return 0;
184	}	184	}
185		185
186	Bu::size Bu::Lzma::write( const void *pData, Bu::size nBytes )	186	Bu::size Bu::Lzma::write( const void *pData, Bu::size nBytes )
187	{	187	{
188	TRACE( pData, nBytes );	188	TRACE( pData, nBytes );
189	if( !pState )	189	if( !pState )
190	{	190	{
191	prState = new ::lzma_stream;	191	prState = new ::lzma_stream;
192	lzma_stream zEmpty = LZMA_STREAM_INIT;	192	lzma_stream zEmpty = LZMA_STREAM_INIT;
193	Bu::memcpy( prState, &zEmpty, sizeof(lzma_stream) );	193	Bu::memcpy( prState, &zEmpty, sizeof(lzma_stream) );
194		194
195	bReading = false;	195	bReading = false;
196	if( eFmt == Xz )	196	if( eFmt == Xz )
197	lzmaError(	197	lzmaError(
198	lzma_easy_encoder( pState, nCompression, LZMA_CHECK_CRC64 )	198	lzma_easy_encoder( pState, nCompression, LZMA_CHECK_CRC64 )
199	);	199	);
200	else if( eFmt == LzmaAlone )	200	else if( eFmt == LzmaAlone )
201	{	201	{
202	lzma_options_lzma opt;	202	lzma_options_lzma opt;
203	lzma_lzma_preset( &opt, nCompression );	203	lzma_lzma_preset( &opt, nCompression );
204	lzmaError( lzma_alone_encoder( pState, &opt ) );	204	lzmaError( lzma_alone_encoder( pState, &opt ) );
205	}	205	}
206	else	206	else
207	throw Bu::ExceptionBase("Invalid format for lzma.");	207	throw Bu::ExceptionBase("Invalid format for lzma.");
208	}	208	}
209	if( bReading == true )	209	if( bReading == true )
210	throw ExceptionBase("This lzma filter is in reading mode, you can't write.");	210	throw ExceptionBase("This lzma filter is in reading mode, you can't write.");
211		211
212	pState->next_in = (uint8_t *)pData;	212	pState->next_in = (uint8_t *)pData;
213	pState->avail_in = nBytes;	213	pState->avail_in = nBytes;
214	for(;;)	214	for(;;)
215	{	215	{
216	pState->avail_out = nBufSize;	216	pState->avail_out = nBufSize;
217	pState->next_out = (uint8_t *)pBuf;	217	pState->next_out = (uint8_t *)pBuf;
218		218
219	lzmaError( lzma_code( pState, LZMA_RUN ) );	219	lzmaError( lzma_code( pState, LZMA_RUN ) );
220		220
221	if( pState->avail_out < nBufSize )	221	if( pState->avail_out < nBufSize )
222	{	222	{
223	sTotalOut += rNext.write( pBuf, nBufSize-pState->avail_out );	223	sTotalOut += rNext.write( pBuf, nBufSize-pState->avail_out );
224	}	224	}
225	if( pState->avail_in == 0 )	225	if( pState->avail_in == 0 )
226	break;	226	break;
227	}	227	}
228		228
229	return nBytes;	229	return nBytes;
230	}	230	}
231		231
232	bool Bu::Lzma::isOpen()	232	bool Bu::Lzma::isOpen()
233	{	233	{
234	TRACE();	234	TRACE();
235	return (pState != NULL);	235	return (pState != NULL);
236	}	236	}
237		237
238	bool Bu::Lzma::isEos()	238	bool Bu::Lzma::isEos()
239	{	239	{
240	TRACE();	240	TRACE();
241	return bEos;	241	return bEos;
242	}	242	}
243		243
244	Bu::size Bu::Lzma::getCompressedSize()	244	Bu::size Bu::Lzma::getCompressedSize()
245	{	245	{
246	return sTotalOut;	246	return sTotalOut;
247	}	247	}
248		248