/*****************************************************************************
* input_ext-dec.h: structures exported to the VideoLAN decoders
*****************************************************************************
- * Copyright (C) 1999, 2000 VideoLAN
- * $Id: input_ext-dec.h,v 1.10 2001/01/10 19:22:10 massiot Exp $
+ * Copyright (C) 1999-2001 VideoLAN
+ * $Id: input_ext-dec.h,v 1.54 2002/03/14 01:35:28 stef Exp $
*
- * Authors:
+ * Authors: Christophe Massiot <massiot@via.ecp.fr>
+ * Michel Kaempf <maxx@via.ecp.fr>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111, USA.
*****************************************************************************/
+/* ES streams types - see ISO/IEC 13818-1 table 2-29 numbers */
+#define MPEG1_VIDEO_ES 0x01
+#define MPEG2_VIDEO_ES 0x02
+#define MPEG1_AUDIO_ES 0x03
+#define MPEG2_AUDIO_ES 0x04
+#define AC3_AUDIO_ES 0x81
+/* These ones might violate the norm : */
+#define DVD_SPU_ES 0x82
+#define LPCM_AUDIO_ES 0x83
+#define UNKNOWN_ES 0xFF
+
/* Structures exported to the decoders */
/*****************************************************************************
*****************************************************************************/
typedef struct data_packet_s
{
- /* Nothing before this line, the code relies on that */
- byte_t * p_buffer; /* raw data packet */
+ /* Used to chain the packets that carry data for a same PES or PSI */
+ struct data_packet_s * p_next;
- /* Decoders information */
+ /* start of the PS or TS packet */
+ byte_t * p_demux_start;
+ /* start of the PES payload in this packet */
byte_t * p_payload_start;
- /* start of the PES payload in this packet */
- byte_t * p_payload_end; /* guess ? :-) */
- boolean_t b_discard_payload; /* is the packet messed up ? */
+ byte_t * p_payload_end; /* guess ? :-) */
+ /* is the packet messed up ? */
+ boolean_t b_discard_payload;
- /* Used to chain the TS packets that carry data for a same PES or PSI */
- struct data_packet_s * p_next;
+ /* pointer to the real data */
+ struct data_buffer_s * p_buffer;
} data_packet_t;
/*****************************************************************************
*****************************************************************************/
typedef struct pes_packet_s
{
+ /* Chained list to the next PES packet (depending on the context) */
+ struct pes_packet_s * p_next;
+
/* PES properties */
- boolean_t b_messed_up; /* At least one of the data packets
- * has a questionable content */
boolean_t b_data_alignment; /* used to find the beginning of
* a video or audio unit */
boolean_t b_discontinuity; /* This packet doesn't follow the
* previous one */
- mtime_t i_pts;/* the PTS for this packet (zero if unset) */
- mtime_t i_dts;/* the DTS for this packet (zero if unset) */
+ mtime_t i_pts; /* PTS for this packet (zero if unset) */
+ mtime_t i_dts; /* DTS for this packet (zero if unset) */
+ int i_rate; /* current pace of reading
+ * (see stream_control.h) */
- int i_pes_size; /* size of the current PES packet */
+ unsigned int i_pes_size; /* size of the current PES packet */
- /* Pointers to packets (packets are then linked by the p_prev and
- p_next fields of the data_packet_t struct) */
- data_packet_t * p_first; /* The first packet containing this
+ /* Chained list to packets */
+ data_packet_t * p_first; /* The first packet contained by this
* PES (used by decoders). */
+ data_packet_t * p_last; /* The last packet contained by this
+ PES (used by the buffer allocator) */
+ unsigned int i_nb_data; /* Number of data packets in the chained
+ list */
} pes_packet_t;
/*****************************************************************************
vlc_cond_t data_wait; /* fifo data conditional variable */
/* Data */
- pes_packet_t * buffer[FIFO_SIZE + 1];
- int i_start;
- int i_end;
+ pes_packet_t * p_first;
+ pes_packet_t ** pp_last;
+ int i_depth; /* number of PES packets in the stack */
/* Communication interface between input and decoders */
boolean_t b_die; /* the decoder should return now */
boolean_t b_error; /* the decoder is in an error loop */
- void * p_packets_mgt; /* packets management services
- * data (netlist...) */
- void (* pf_delete_pes)( void *, pes_packet_t * );
- /* function to use when releasing a PES */
+ struct input_buffers_s *p_packets_mgt; /* packets management services
+ * data */
} decoder_fifo_t;
-/* Macros to manage a decoder_fifo_t structure. Please remember to take
- * data_lock before using them. */
-#define DECODER_FIFO_ISEMPTY( fifo ) ( (fifo).i_start == (fifo).i_end )
-#define DECODER_FIFO_ISFULL( fifo ) ( ( ((fifo).i_end + 1 - (fifo).i_start)\
- & FIFO_SIZE ) == 0 )
-#define DECODER_FIFO_START( fifo ) ( (fifo).buffer[ (fifo).i_start ] )
-#define DECODER_FIFO_INCSTART( fifo ) ( (fifo).i_start = ((fifo).i_start + 1)\
- & FIFO_SIZE )
-#define DECODER_FIFO_END( fifo ) ( (fifo).buffer[ (fifo).i_end ] )
-#define DECODER_FIFO_INCEND( fifo ) ( (fifo).i_end = ((fifo).i_end + 1) \
- & FIFO_SIZE )
-
/*****************************************************************************
* bit_fifo_t : bit fifo descriptor
*****************************************************************************
* This type describes a bit fifo used to store bits while working with the
* input stream at the bit level.
*****************************************************************************/
-typedef u32 WORD_TYPE; /* only u32 is supported at the moment */
+typedef u32 WORD_TYPE;
typedef struct bit_fifo_s
{
*****************************************************************************/
typedef struct bit_stream_s
{
+ /*
+ * Bit structures
+ */
+ bit_fifo_t fifo;
+
/*
* Input structures
*/
/* The decoder fifo contains the data of the PES stream */
decoder_fifo_t * p_decoder_fifo;
- /* Function to jump to the next data packet */
- void (* pf_next_data_packet)( struct bit_stream_s * );
-
/* Callback to the decoder used when changing data packets ; set
* to NULL if your decoder doesn't need it. */
void (* pf_bitstream_callback)( struct bit_stream_s *,
/* Optional argument to the callback */
void * p_callback_arg;
+ /*
+ * PTS retrieval
+ */
+ mtime_t i_pts, i_dts;
+ byte_t * p_pts_validity;
+
/*
* Byte structures
*/
/* Current data packet (in the current PES packet of the PES stream) */
data_packet_t * p_data;
- /* Pointer to the next byte that is to be read (in the current TS packet) */
+ /* Pointer to the next byte that is to be read (in the current packet) */
byte_t * p_byte;
- /* Pointer to the last byte that is to be read (in the current TS packet */
+ /* Pointer to the last byte that is to be read (in the current packet */
byte_t * p_end;
-
- /*
- * Bit structures
- */
- bit_fifo_t fifo;
+ /* Temporary buffer in case we're not aligned when changing data packets */
+ WORD_TYPE i_showbits_buffer;
+ data_packet_t showbits_data;
} bit_stream_t;
/*****************************************************************************
*****************************************************************************/
/*
- * Philosophy of the first implementation : the bit buffer is first filled by
- * NeedBits, then the buffer can be read via p_bit_stream->fifo.buffer, and
- * unnecessary bits are dumped with a DumpBits() call.
+ * DISCUSSION : How to use the bit_stream structures
+ *
+ * sizeof(WORD_TYPE) (usually 32) bits are read at the same time, thus
+ * minimizing the number of p_byte changes.
+ * Bits are read via GetBits() or ShowBits.
+ *
+ * XXX : Be aware that if, in the forthcoming functions, i_bits > 24,
+ * the data have to be already aligned on an 8-bit boundary, or wrong
+ * results will be returned. Use RealignBits() if unsure.
*/
-/*****************************************************************************
- * GetByte : reads the next byte in the input stream
- *****************************************************************************/
-static __inline__ byte_t GetByte( bit_stream_t * p_bit_stream )
-{
- /* Are there some bytes left in the current data packet ? */
- /* could change this test to have a if (! (bytes--)) instead */
- if ( p_bit_stream->p_byte >= p_bit_stream->p_end )
- {
- /* no, switch to next data packet */
- p_bit_stream->pf_next_data_packet( p_bit_stream );
- }
-
- return( *(p_bit_stream->p_byte++) );
-}
-
-/*****************************************************************************
- * NeedBits : reads i_bits new bits in the bit stream and stores them in the
- * bit buffer
- *****************************************************************************
- * - i_bits must be less or equal 32 !
- * - There is something important to notice with that function : if the number
- * of bits available in the bit buffer when calling NeedBits() is greater than
- * 24 (i_available > 24) but less than the number of needed bits
- * (i_available < i_bits), the byte returned by GetByte() will be shifted with
- * a negative value and the number of bits available in the bit buffer will be
- * set to more than 32 !
- *****************************************************************************/
-static __inline__ void NeedBits( bit_stream_t * p_bit_stream, int i_bits )
-{
- while ( p_bit_stream->fifo.i_available < i_bits )
- {
- p_bit_stream->fifo.buffer |= ((WORD_TYPE)GetByte( p_bit_stream ))
- << (sizeof(WORD_TYPE) - 8
- - p_bit_stream->fifo.i_available);
- p_bit_stream->fifo.i_available += 8;
- }
-}
+#if (WORD_TYPE == u32)
+# define WORD_AT U32_AT
+# define WORD_SIGNED s32
+#elif (WORD_TYPE == u64)
+# define WORD_AT U64_AT
+# define WORD_SIGNED s64
+#else
+# error Unsupported WORD_TYPE
+#endif
/*****************************************************************************
- * DumpBits : removes i_bits bits from the bit buffer
- *****************************************************************************
- * - i_bits <= i_available
- * - i_bits < 32 (because (u32 << 32) <=> (u32 = u32))
+ * Prototypes from input_ext-dec.c
*****************************************************************************/
-static __inline__ void DumpBits( bit_stream_t * p_bit_stream, int i_bits )
-{
- p_bit_stream->fifo.buffer <<= i_bits;
- p_bit_stream->fifo.i_available -= i_bits;
-}
-
-
-/*
- * Philosophy of the second implementation : WORD_LENGTH (usually 32) bits
- * are read at the same time, thus minimizing the number of p_byte changes.
- * Bits are read via GetBits() or ShowBits. This is slightly faster. Be
- * aware that if, in the forthcoming functions, i_bits > 24, the data have to
- * be already aligned on an 8-bit boundary, or wrong results will be
- * returned.
- */
-
-#if (WORD_TYPE != u32)
-# error Not supported word
-#endif
-
-/*
- * This is stolen from the livid source who stole it from the kernel
- * FIXME: The macro swab32 for little endian machines does
- * not seem to work correctly
- */
-
-#if defined(SYS_BEOS)
-# define swab32(x) B_BENDIAN_TO_HOST_INT32(x)
+#ifndef PLUGIN
+void InitBitstream ( struct bit_stream_s *, struct decoder_fifo_s *,
+ void (* pf_bitstream_callback)( struct bit_stream_s *,
+ boolean_t ),
+ void * p_callback_arg );
+boolean_t NextDataPacket( struct decoder_fifo_s *, struct data_packet_s ** );
+void BitstreamNextDataPacket( struct bit_stream_s * );
+u32 UnalignedShowBits( struct bit_stream_s *, unsigned int );
+void UnalignedRemoveBits( struct bit_stream_s * );
+u32 UnalignedGetBits( struct bit_stream_s *, unsigned int );
+void CurrentPTS( struct bit_stream_s *, mtime_t *, mtime_t * );
#else
-# ifdef WORDS_BIG_ENDIAN
-# define swab32(x) (x)
-# else
-# if defined (HAVE_X86_BSWAP)
-static __inline__ const u32 __i386_swab32( u32 x )
-{
- __asm__("bswap %0" : "=r" (x) : "0" (x));
- return x;
-}
-# define swab32(x) __i386_swab32(x)
-# else
-# define swab32(x) \
- ( ( (u32)(((u8*)&x)[0]) << 24 ) | ( (u32)(((u8*)&x)[1]) << 16 ) |\
- ( (u32)(((u8*)&x)[2]) << 8 ) | ( (u32)(((u8*)&x)[3])) )
-# endif
-# endif
+# define InitBitstream p_symbols->InitBitstream
+# define NextDataPacket p_symbols->NextDataPacket
+# define BitstreamNextDataPacket p_symbols->BitstreamNextDataPacket
+# define UnalignedShowBits p_symbols->UnalignedShowBits
+# define UnalignedRemoveBits p_symbols->UnalignedRemoveBits
+# define UnalignedGetBits p_symbols->UnalignedGetBits
+# define CurrentPTS p_symbols->CurrentPTS
#endif
/*****************************************************************************
- * ShowBits : return i_bits bits from the bit stream
+ * AlignWord : fill in the bit buffer so that the byte pointer be aligned
+ * on a word boundary (XXX: there must be at least sizeof(WORD_TYPE) - 1
+ * empty bytes in the bit buffer)
*****************************************************************************/
-static __inline__ WORD_TYPE ShowWord( bit_stream_t * p_bit_stream )
+static __inline__ void AlignWord( bit_stream_t * p_bit_stream )
{
- if( p_bit_stream->p_byte <= p_bit_stream->p_end - sizeof(WORD_TYPE) )
+ while( (ptrdiff_t)p_bit_stream->p_byte
+ & (sizeof(WORD_TYPE) - 1) )
{
- return( swab32( *((WORD_TYPE *)p_bit_stream->p_byte) ) );
+ if( p_bit_stream->p_byte < p_bit_stream->p_end )
+ {
+ p_bit_stream->fifo.buffer |= *(p_bit_stream->p_byte++)
+ << (8 * sizeof(WORD_TYPE) - 8
+ - p_bit_stream->fifo.i_available);
+ p_bit_stream->fifo.i_available += 8;
+ }
+ else
+ {
+ BitstreamNextDataPacket( p_bit_stream );
+ p_bit_stream->fifo.buffer |= *(p_bit_stream->p_byte++)
+ << (8 * sizeof(WORD_TYPE) - 8
+ - p_bit_stream->fifo.i_available);
+ p_bit_stream->fifo.i_available += 8;
+ }
}
-
- p_bit_stream->pf_next_data_packet( p_bit_stream );
- return( swab32( *((WORD_TYPE *)p_bit_stream->p_byte) ) );
}
-static __inline__ WORD_TYPE ShowBits( bit_stream_t * p_bit_stream, int i_bits )
+/*****************************************************************************
+ * ShowBits : return i_bits bits from the bit stream
+ *****************************************************************************/
+static __inline__ u32 ShowBits( bit_stream_t * p_bit_stream,
+ unsigned int i_bits )
{
if( p_bit_stream->fifo.i_available >= i_bits )
{
return( p_bit_stream->fifo.buffer >> (8 * sizeof(WORD_TYPE) - i_bits) );
}
- return( (p_bit_stream->fifo.buffer |
- (ShowWord( p_bit_stream ) >> p_bit_stream->fifo.i_available))
+ if( p_bit_stream->p_byte <= p_bit_stream->p_end - sizeof(WORD_TYPE) )
+ {
+ return( (p_bit_stream->fifo.buffer |
+ (WORD_AT( p_bit_stream->p_byte )
+ >> p_bit_stream->fifo.i_available))
>> (8 * sizeof(WORD_TYPE) - i_bits) );
+ }
+
+ return( UnalignedShowBits( p_bit_stream, i_bits ) );
}
/*****************************************************************************
- * GetWord : returns the next word to be read
+ * ShowSignedBits : return i_bits bits from the bit stream, using signed
+ * arithmetic
*****************************************************************************/
-static __inline__ WORD_TYPE GetWord( bit_stream_t * p_bit_stream )
+static __inline__ s32 ShowSignedBits( bit_stream_t * p_bit_stream,
+ unsigned int i_bits )
{
- if( p_bit_stream->p_byte <= p_bit_stream->p_end - sizeof(WORD_TYPE) )
- {
- return( swab32( *(((WORD_TYPE *)p_bit_stream->p_byte)++) ) );
- }
- else
+ if( p_bit_stream->fifo.i_available >= i_bits )
{
- p_bit_stream->pf_next_data_packet( p_bit_stream );
- return( swab32( *(((WORD_TYPE *)p_bit_stream->p_byte)++) ) );
+ return( (WORD_SIGNED)p_bit_stream->fifo.buffer
+ >> (8 * sizeof(WORD_TYPE) - i_bits) );
}
+
+ /* You can probably do something a little faster, but now I'm tired. */
+ return( (WORD_SIGNED)(ShowBits( p_bit_stream, i_bits ) << (32 - i_bits))
+ >> (32 - i_bits) );
}
/*****************************************************************************
* RemoveBits : removes i_bits bits from the bit buffer
+ * XXX: do not use for 32 bits, see RemoveBits32
*****************************************************************************/
-static __inline__ void RemoveBits( bit_stream_t * p_bit_stream, int i_bits )
+static __inline__ void RemoveBits( bit_stream_t * p_bit_stream,
+ unsigned int i_bits )
{
p_bit_stream->fifo.i_available -= i_bits;
p_bit_stream->fifo.buffer <<= i_bits;
return;
}
- p_bit_stream->fifo.buffer = GetWord( p_bit_stream )
- << ( -p_bit_stream->fifo.i_available );
- p_bit_stream->fifo.i_available += sizeof(WORD_TYPE) * 8;
+
+ if( p_bit_stream->p_byte <= p_bit_stream->p_end - sizeof(WORD_TYPE) )
+ {
+ p_bit_stream->fifo.buffer = WORD_AT( p_bit_stream->p_byte )
+ << ( -p_bit_stream->fifo.i_available );
+ ((WORD_TYPE *)p_bit_stream->p_byte)++;
+ p_bit_stream->fifo.i_available += sizeof(WORD_TYPE) * 8;
+ return;
+ }
+
+ UnalignedRemoveBits( p_bit_stream );
}
/*****************************************************************************
* RemoveBits32 : removes 32 bits from the bit buffer (and as a side effect,
- * refill it). This should be faster than RemoveBits, though
- * RemoveBits will work, too.
+ * refill it)
*****************************************************************************/
+#if (WORD_TYPE == u32)
static __inline__ void RemoveBits32( bit_stream_t * p_bit_stream )
{
- p_bit_stream->fifo.buffer = GetWord( p_bit_stream )
- << (32 - p_bit_stream->fifo.i_available);
+ if( p_bit_stream->p_byte <= p_bit_stream->p_end - sizeof(WORD_TYPE) )
+ {
+ if( p_bit_stream->fifo.i_available )
+ {
+ p_bit_stream->fifo.buffer = WORD_AT( p_bit_stream->p_byte )
+ << (32 - p_bit_stream->fifo.i_available);
+ ((WORD_TYPE *)p_bit_stream->p_byte)++;
+ return;
+ }
+
+ ((WORD_TYPE *)p_bit_stream->p_byte)++;
+ return;
+ }
+
+ p_bit_stream->fifo.i_available -= 32;
+ UnalignedRemoveBits( p_bit_stream );
}
+#else
+# define RemoveBits32( p_bit_stream ) RemoveBits( p_bit_stream, 32 )
+#endif
/*****************************************************************************
* GetBits : returns i_bits bits from the bit stream and removes them
+ * XXX: do not use for 32 bits, see GetBits32
*****************************************************************************/
-static __inline__ WORD_TYPE GetBits( bit_stream_t * p_bit_stream, int i_bits )
+static __inline__ u32 GetBits( bit_stream_t * p_bit_stream,
+ unsigned int i_bits )
{
u32 i_result;
p_bit_stream->fifo.i_available -= i_bits;
+
if( p_bit_stream->fifo.i_available >= 0 )
{
- i_result = p_bit_stream->fifo.buffer >> (8 * sizeof(WORD_TYPE) - i_bits);
+ i_result = p_bit_stream->fifo.buffer
+ >> (8 * sizeof(WORD_TYPE) - i_bits);
p_bit_stream->fifo.buffer <<= i_bits;
return( i_result );
}
- i_result = p_bit_stream->fifo.buffer >> (8 * sizeof(WORD_TYPE) - i_bits);
- p_bit_stream->fifo.buffer = GetWord( p_bit_stream );
- i_result |= p_bit_stream->fifo.buffer
- >> (8 * sizeof(WORD_TYPE)
+ if( p_bit_stream->p_byte <= p_bit_stream->p_end - sizeof(WORD_TYPE) )
+ {
+ i_result = p_bit_stream->fifo.buffer
+ >> (8 * sizeof(WORD_TYPE) - i_bits);
+ p_bit_stream->fifo.buffer = WORD_AT( p_bit_stream->p_byte );
+ ((WORD_TYPE *)p_bit_stream->p_byte)++;
+ i_result |= p_bit_stream->fifo.buffer
+ >> (8 * sizeof(WORD_TYPE)
+ p_bit_stream->fifo.i_available);
- p_bit_stream->fifo.buffer <<= ( -p_bit_stream->fifo.i_available );
- p_bit_stream->fifo.i_available += sizeof(WORD_TYPE) * 8;
+ p_bit_stream->fifo.buffer <<= ( -p_bit_stream->fifo.i_available );
+ p_bit_stream->fifo.i_available += sizeof(WORD_TYPE) * 8;
+ return( i_result );
+ }
- return( i_result );
+ return UnalignedGetBits( p_bit_stream, i_bits );
+}
+
+/*****************************************************************************
+ * GetSignedBits : returns i_bits bits from the bit stream and removes them,
+ * using signed arithmetic
+ * XXX: do not use for 32 bits
+ *****************************************************************************/
+static __inline__ s32 GetSignedBits( bit_stream_t * p_bit_stream,
+ unsigned int i_bits )
+{
+ if( p_bit_stream->fifo.i_available >= i_bits )
+ {
+ s32 i_result;
+
+ p_bit_stream->fifo.i_available -= i_bits;
+ i_result = (WORD_SIGNED)p_bit_stream->fifo.buffer
+ >> (8 * sizeof(WORD_TYPE) - i_bits);
+ p_bit_stream->fifo.buffer <<= i_bits;
+ return( i_result );
+ }
+
+ /* You can probably do something a little faster, but now I'm tired. */
+ return( (WORD_SIGNED)(GetBits( p_bit_stream, i_bits ) << (32 - i_bits))
+ >> (32 - i_bits) );
}
/*****************************************************************************
* GetBits32 : returns 32 bits from the bit stream and removes them
*****************************************************************************/
-static __inline__ WORD_TYPE GetBits32( bit_stream_t * p_bit_stream )
+#if (WORD_TYPE == u32)
+static __inline__ u32 GetBits32( bit_stream_t * p_bit_stream )
{
- WORD_TYPE i_result;
+ u32 i_result;
- i_result = p_bit_stream->fifo.buffer;
- p_bit_stream->fifo.buffer = GetWord( p_bit_stream );
- i_result |= p_bit_stream->fifo.buffer
+ if( p_bit_stream->fifo.i_available == 32 )
+ {
+ p_bit_stream->fifo.i_available = 0;
+ i_result = p_bit_stream->fifo.buffer;
+ p_bit_stream->fifo.buffer = 0;
+ return( i_result );
+ }
+
+ if( p_bit_stream->p_byte <= p_bit_stream->p_end - sizeof(WORD_TYPE) )
+ {
+ if( p_bit_stream->fifo.i_available )
+ {
+ i_result = p_bit_stream->fifo.buffer;
+ p_bit_stream->fifo.buffer = WORD_AT( p_bit_stream->p_byte );
+ ((WORD_TYPE *)p_bit_stream->p_byte)++;
+ i_result |= p_bit_stream->fifo.buffer
>> (p_bit_stream->fifo.i_available);
- p_bit_stream->fifo.buffer <<= (8 * sizeof(WORD_TYPE)
- - p_bit_stream->fifo.i_available);
-
- return( i_result );
+ p_bit_stream->fifo.buffer <<= (32 - p_bit_stream->fifo.i_available);
+ return( i_result );
+ }
+
+ i_result = WORD_AT( p_bit_stream->p_byte );
+ ((WORD_TYPE *)p_bit_stream->p_byte)++;
+ return( i_result );
+ }
+
+ p_bit_stream->fifo.i_available -= 32;
+ return UnalignedGetBits( p_bit_stream, 32 );
}
+#else
+# define GetBits32( p_bit_stream ) GetBits( p_bit_stream, 32 )
+#endif
/*****************************************************************************
* RealignBits : realigns the bit buffer on an 8-bit boundary
}
-/*
- * Philosophy of the third implementation : the decoder asks for n bytes,
- * and we will copy them in its buffer.
- */
-
/*****************************************************************************
* GetChunk : reads a large chunk of data
*****************************************************************************
* The position in the stream must be byte-aligned, if unsure call
- * RealignBits(). p_buffer must to a buffer at least as big as i_buf_len
+ * RealignBits(). p_buffer must point to a buffer at least as big as i_buf_len
* otherwise your code will crash.
*****************************************************************************/
static __inline__ void GetChunk( bit_stream_t * p_bit_stream,
{
ptrdiff_t i_available;
+ /* We need to take care because i_buf_len may be < 4. */
+ while( p_bit_stream->fifo.i_available > 0 && i_buf_len )
+ {
+ *p_buffer = p_bit_stream->fifo.buffer >> (8 * sizeof(WORD_TYPE) - 8);
+ p_buffer++;
+ i_buf_len--;
+ p_bit_stream->fifo.buffer <<= 8;
+ p_bit_stream->fifo.i_available -= 8;
+ }
+
if( (i_available = p_bit_stream->p_end - p_bit_stream->p_byte)
>= i_buf_len )
{
- memcpy( p_buffer, p_bit_stream->p_byte, i_buf_len );
+ FAST_MEMCPY( p_buffer, p_bit_stream->p_byte, i_buf_len );
p_bit_stream->p_byte += i_buf_len;
}
else
{
do
{
- memcpy( p_buffer, p_bit_stream->p_byte, i_available );
+ FAST_MEMCPY( p_buffer, p_bit_stream->p_byte, i_available );
p_bit_stream->p_byte = p_bit_stream->p_end;
p_buffer += i_available;
i_buf_len -= i_available;
- p_bit_stream->pf_next_data_packet( p_bit_stream );
+ BitstreamNextDataPacket( p_bit_stream );
}
while( (i_available = p_bit_stream->p_end - p_bit_stream->p_byte)
- <= i_buf_len );
+ <= i_buf_len && !p_bit_stream->p_decoder_fifo->b_die );
if( i_buf_len )
{
- memcpy( p_buffer, p_bit_stream->p_byte, i_buf_len );
+ FAST_MEMCPY( p_buffer, p_bit_stream->p_byte, i_buf_len );
p_bit_stream->p_byte += i_buf_len;
}
}
+
+ if( p_bit_stream->p_byte <= p_bit_stream->p_end - sizeof(WORD_TYPE) )
+ {
+ AlignWord( p_bit_stream );
+ }
}
u16 i_id;
u8 i_type; /* type of the elementary stream */
+ void * p_demux_data;
struct stream_ctrl_s * p_stream_ctrl;
struct decoder_fifo_s * p_decoder_fifo;
- void (* pf_init_bit_stream)( struct bit_stream_s *,
- struct decoder_fifo_s * );
} decoder_config_t;
/*****************************************************************************
- * vdec_config_t
- *****************************************************************************
- * Pointers given to video decoders threads.
- *****************************************************************************/
-struct vout_thread_s;
-
-typedef struct vdec_config_s
-{
- struct vout_thread_s * p_vout;
-
- struct picture_s * (* pf_create_picture)( struct vout_thread_s *,
- int i_type, int i_width,
- int i_height );
- void (* pf_destroy_picture)( struct vout_thread_s *,
- struct picture_s * );
- void (* pf_display_picture)( struct vout_thread_s *,
- struct picture_s * );
- void (* pf_date_picture)( struct vout_thread_s *,
- struct picture_s *, mtime_t date );
- void (* pf_link_picture)( struct vout_thread_s *,
- struct picture_s *, mtime_t date );
- void (* pf_unlink_picture)( struct vout_thread_s *,
- struct picture_s *, mtime_t date );
- struct subpicture_s *(* pf_create_subpicture)( struct vout_thread_s *,
- int i_type, int i_size );
- void (* pf_destroy_subpicture)( struct vout_thread_s *,
- struct subpicture_s * );
- void (* pf_display_subpicture)( struct vout_thread_s *,
- struct subpicture_s * );
-
- decoder_config_t decoder_config;
-} vdec_config_t;
-
-/*****************************************************************************
- * adec_config_t
- *****************************************************************************
- * Pointers given to audio decoders threads.
+ * Prototypes from input_dec.c
*****************************************************************************/
-struct aout_thread_s;
-
-typedef struct adec_config_s
-{
- struct aout_thread_s * p_aout;
-
- struct aout_fifo_s * (* pf_create_fifo)( struct aout_thread_s *,
- struct aout_fifo_s * );
- void (* pf_destroy_fifo)( struct aout_thread_s *);
-
- decoder_config_t decoder_config;
-} adec_config_t;
-
-
-/*
- * Communication interface between decoders and input
- */
+#ifndef PLUGIN
+void DecoderError ( struct decoder_fifo_s * p_fifo );
+#else
+# define DecoderError p_symbols->DecoderError
+#endif
-/*****************************************************************************
- * decoder_capabilities_t
- *****************************************************************************
- * Structure returned by a call to GetCapabilities() of the decoder.
- *****************************************************************************/
-typedef struct decoder_capabilities_s
-{
- int i_dec_type;
- u8 i_stream_type; /* == i_type in es_descriptor_t */
- int i_weight; /* for a given stream type, the decoder
- * with higher weight will be spawned */
-
- vlc_thread_t (* pf_create_thread)( void * );
-} decoder_capabilities_t;
-
-/* Decoder types */
-#define NONE_D 0
-#define VIDEO_D 1
-#define AUDIO_D 2