* input_ext-dec.h: structures exported to the VideoLAN decoders
*****************************************************************************
* Copyright (C) 1999-2001 VideoLAN
- * $Id: input_ext-dec.h,v 1.62 2002/07/20 18:01:41 sam Exp $
+ * $Id: input_ext-dec.h,v 1.79 2003/03/04 13:21:19 massiot Exp $
*
* Authors: Christophe Massiot <massiot@via.ecp.fr>
* Michel Kaempf <maxx@via.ecp.fr>
#ifndef _VLC_INPUT_EXT_DEC_H
#define _VLC_INPUT_EXT_DEC_H 1
-/* 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 MSMPEG4v1_VIDEO_ES 0x40
-#define MSMPEG4v2_VIDEO_ES 0x41
-#define MSMPEG4v3_VIDEO_ES 0x42
-#define MPEG4_VIDEO_ES 0x50
-#define H263_VIDEO_ES 0x60
-#define I263_VIDEO_ES 0x61
-#define SVQ1_VIDEO_ES 0x62
-
-#define UNKNOWN_ES 0xFF
-
/* Structures exported to the decoders */
/*****************************************************************************
input_buffers_t *p_packets_mgt; /* packets management services data */
/* Standard pointers given to the decoders as a toolbox. */
- u16 i_id;
- u8 i_type;
- void * p_demux_data;
+ uint16_t i_id;
+ vlc_fourcc_t i_fourcc;
+ es_sys_t * p_demux_data;
stream_ctrl_t * p_stream_ctrl;
+ sout_instance_t * p_sout;
+ void * p_waveformatex;
+ void * p_bitmapinfoheader;
+
+ /* Module properties */
+ module_t * p_module;
+ int ( * pf_run ) ( decoder_fifo_t * );
};
/*****************************************************************************
* This type describes a bit fifo used to store bits while working with the
* input stream at the bit level.
*****************************************************************************/
-typedef u32 WORD_TYPE;
+typedef uint32_t WORD_TYPE;
typedef struct bit_fifo_t
{
/*
* Byte structures
*/
- /* Current data packet (in the current PES packet of the PES stream) */
+ /* Current PES packet (extracted from the PES stream) */
+ pes_packet_t * p_pes;
+ /* Current data packet (in the current PES packet) */
data_packet_t * p_data;
/* Pointer to the next byte that is to be read (in the current packet) */
byte_t * p_byte;
* results will be returned. Use RealignBits() if unsure.
*/
-#if (WORD_TYPE == u32)
+#if (WORD_TYPE == uint32_t)
# define WORD_AT U32_AT
-# define WORD_SIGNED s32
-#elif (WORD_TYPE == u64)
+# define WORD_SIGNED int32_t
+#elif (WORD_TYPE == uint64_t)
# define WORD_AT U64_AT
-# define WORD_SIGNED s64
+# define WORD_SIGNED int64_t
#else
# error Unsupported WORD_TYPE
#endif
/*****************************************************************************
* Prototypes from input_ext-dec.c
*****************************************************************************/
-VLC_EXPORT( void, InitBitstream, ( bit_stream_t *, decoder_fifo_t *, void ( * )( bit_stream_t *, vlc_bool_t ), void * p_callback_arg ) );
-VLC_EXPORT( vlc_bool_t, NextDataPacket, ( decoder_fifo_t *, data_packet_t ** ) );
+VLC_EXPORT( void, input_ExtractPES, ( decoder_fifo_t *, pes_packet_t ** ) );
+VLC_EXPORT( void, input_DeletePES, ( input_buffers_t *, pes_packet_t * ) );
+VLC_EXPORT( int, InitBitstream, ( bit_stream_t *, decoder_fifo_t *, void ( * )( bit_stream_t *, vlc_bool_t ), void * p_callback_arg ) );
+VLC_EXPORT( vlc_bool_t, NextDataPacket, ( decoder_fifo_t *, bit_stream_t * ) );
VLC_EXPORT( void, BitstreamNextDataPacket, ( bit_stream_t * ) );
-VLC_EXPORT( u32, UnalignedShowBits, ( bit_stream_t *, unsigned int ) );
+VLC_EXPORT( uint32_t, UnalignedShowBits, ( bit_stream_t *, unsigned int ) );
VLC_EXPORT( void, UnalignedRemoveBits, ( bit_stream_t * ) );
-VLC_EXPORT( u32, UnalignedGetBits, ( bit_stream_t *, unsigned int ) );
+VLC_EXPORT( uint32_t, UnalignedGetBits, ( bit_stream_t *, unsigned int ) );
+VLC_EXPORT( void, CloseBitstream, ( bit_stream_t * ) );
VLC_EXPORT( void, CurrentPTS, ( bit_stream_t *, mtime_t *, mtime_t * ) );
+VLC_EXPORT( void, NextPTS, ( bit_stream_t *, mtime_t *, mtime_t * ) );
/*****************************************************************************
* AlignWord : fill in the bit buffer so that the byte pointer be aligned
/*****************************************************************************
* ShowBits : return i_bits bits from the bit stream
*****************************************************************************/
-static inline u32 ShowBits( bit_stream_t * p_bit_stream, unsigned int i_bits )
+static inline uint32_t ShowBits( bit_stream_t * p_bit_stream,
+ unsigned int i_bits )
{
- if( p_bit_stream->fifo.i_available >= i_bits )
+ if( (unsigned int)p_bit_stream->fifo.i_available >= i_bits )
{
return( p_bit_stream->fifo.buffer >> (8 * sizeof(WORD_TYPE) - i_bits) );
}
* ShowSignedBits : return i_bits bits from the bit stream, using signed
* arithmetic
*****************************************************************************/
-static inline s32 ShowSignedBits( bit_stream_t * p_bit_stream,
- unsigned int i_bits )
+static inline int32_t ShowSignedBits( bit_stream_t * p_bit_stream,
+ unsigned int i_bits )
{
- if( p_bit_stream->fifo.i_available >= i_bits )
+ if( (unsigned int)p_bit_stream->fifo.i_available >= i_bits )
{
return( (WORD_SIGNED)p_bit_stream->fifo.buffer
>> (8 * sizeof(WORD_TYPE) - i_bits) );
{
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->p_byte =
+ (byte_t *) ( ((WORD_TYPE *)p_bit_stream->p_byte) + 1 );
p_bit_stream->fifo.i_available += sizeof(WORD_TYPE) * 8;
return;
}
* RemoveBits32 : removes 32 bits from the bit buffer (and as a side effect,
* refill it)
*****************************************************************************/
-#if (WORD_TYPE == u32)
+#if (WORD_TYPE == uint32_t)
static inline void RemoveBits32( bit_stream_t * p_bit_stream )
{
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 )
<< (32 - p_bit_stream->fifo.i_available);
- ((WORD_TYPE *)p_bit_stream->p_byte)++;
+ p_bit_stream->p_byte =
+ (byte_t *) ( ((WORD_TYPE *)p_bit_stream->p_byte) + 1 );
return;
}
- ((WORD_TYPE *)p_bit_stream->p_byte)++;
+ p_bit_stream->p_byte =
+ (byte_t *) ( ((WORD_TYPE *)p_bit_stream->p_byte) + 1 );
return;
}
* GetBits : returns i_bits bits from the bit stream and removes them
* XXX: do not use for 32 bits, see GetBits32
*****************************************************************************/
-static inline u32 GetBits( bit_stream_t * p_bit_stream, unsigned int i_bits )
+static inline uint32_t GetBits( bit_stream_t * p_bit_stream,
+ unsigned int i_bits )
{
- u32 i_result;
+ uint32_t i_result;
p_bit_stream->fifo.i_available -= i_bits;
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)++;
+ p_bit_stream->p_byte =
+ (byte_t *) ( ((WORD_TYPE *)p_bit_stream->p_byte) + 1 );
i_result |= p_bit_stream->fifo.buffer
>> (8 * sizeof(WORD_TYPE)
+ p_bit_stream->fifo.i_available);
* using signed arithmetic
* XXX: do not use for 32 bits
*****************************************************************************/
-static inline s32 GetSignedBits( bit_stream_t * p_bit_stream,
- unsigned int i_bits )
+static inline int32_t GetSignedBits( bit_stream_t * p_bit_stream,
+ unsigned int i_bits )
{
- if( p_bit_stream->fifo.i_available >= i_bits )
+ if( (unsigned int)p_bit_stream->fifo.i_available >= i_bits )
{
- s32 i_result;
+ int32_t i_result;
p_bit_stream->fifo.i_available -= i_bits;
i_result = (WORD_SIGNED)p_bit_stream->fifo.buffer
/*****************************************************************************
* GetBits32 : returns 32 bits from the bit stream and removes them
*****************************************************************************/
-#if (WORD_TYPE == u32)
-static inline u32 GetBits32( bit_stream_t * p_bit_stream )
+#if (WORD_TYPE == uint32_t)
+static inline uint32_t GetBits32( bit_stream_t * p_bit_stream )
{
- u32 i_result;
+ uint32_t i_result;
if( p_bit_stream->fifo.i_available == 32 )
{
{
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)++;
+ p_bit_stream->p_byte =
+ (byte_t *) ( ((WORD_TYPE *)p_bit_stream->p_byte) + 1 );
i_result |= p_bit_stream->fifo.buffer
>> (p_bit_stream->fifo.i_available);
p_bit_stream->fifo.buffer <<= (32 - p_bit_stream->fifo.i_available);
}
i_result = WORD_AT( p_bit_stream->p_byte );
- ((WORD_TYPE *)p_bit_stream->p_byte)++;
+ p_bit_stream->p_byte =
+ (byte_t *) ( ((WORD_TYPE *)p_bit_stream->p_byte) + 1 );
return( i_result );
}
p_bit_stream->fifo.i_available -= 8;
}
- if( (i_available = p_bit_stream->p_end - p_bit_stream->p_byte)
- >= i_buf_len )
+ i_available = p_bit_stream->p_end - p_bit_stream->p_byte;
+ if( i_available >= (ptrdiff_t)i_buf_len )
{
p_bit_stream->p_decoder_fifo->p_vlc->pf_memcpy( p_buffer,
p_bit_stream->p_byte, i_buf_len );
return;
}
while( (i_available = p_bit_stream->p_end - p_bit_stream->p_byte)
- <= i_buf_len );
+ <= (ptrdiff_t)i_buf_len );
if( i_buf_len )
{