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/* $Id: muxavi.c,v 1.10 2005/03/30 18:17:29 titer Exp $
This file is part of the HandBrake source code.
Homepage: <http://handbrake.m0k.org/>.
It may be used under the terms of the GNU General Public License. */
#include "hb.h"
#define AVIF_HASINDEX 0x10
#define AVIIF_KEYFRAME 0x10
#define FOURCC(a) ((a[3]<<24)|(a[2]<<16)|(a[1]<<8)|a[0])
/* Structures definitions */
typedef struct __attribute__((__packed__))
{
uint32_t FourCC;
uint32_t BytesCount;
uint32_t MicroSecPerFrame;
uint32_t MaxBytesPerSec;
uint32_t PaddingGranularity;
uint32_t Flags;
uint32_t TotalFrames;
uint32_t InitialFrames;
uint32_t Streams;
uint32_t SuggestedBufferSize;
uint32_t Width;
uint32_t Height;
uint32_t Reserved[4];
} hb_avi_main_header_t;
typedef struct __attribute__((__packed__))
{
uint32_t FourCC;
uint32_t BytesCount;
uint32_t Type;
uint32_t Handler;
uint32_t Flags;
uint16_t Priority;
uint16_t Language;
uint32_t InitialFrames;
uint32_t Scale;
uint32_t Rate;
uint32_t Start;
uint32_t Length;
uint32_t SuggestedBufferSize;
uint32_t Quality;
uint32_t SampleSize;
int16_t Left;
int16_t Top;
int16_t Right;
int16_t Bottom;
} hb_avi_stream_header_t;
typedef struct __attribute__((__packed__))
{
uint32_t FourCC;
uint32_t BytesCount;
uint32_t Size;
uint32_t Width;
uint32_t Height;
uint16_t Planes;
uint16_t BitCount;
uint32_t Compression;
uint32_t SizeImage;
uint32_t XPelsPerMeter;
uint32_t YPelsPerMeter;
uint32_t ClrUsed;
uint32_t ClrImportant;
} hb_bitmap_info_t;
typedef struct __attribute__((__packed__))
{
uint32_t FourCC;
uint32_t BytesCount;
uint16_t FormatTag;
uint16_t Channels;
uint32_t SamplesPerSec;
uint32_t AvgBytesPerSec;
uint16_t BlockAlign;
uint16_t BitsPerSample;
uint16_t Size;
} hb_wave_formatex_t;
typedef struct __attribute__((__packed__))
{
uint16_t Id;
uint32_t Flags;
uint16_t BlockSize;
uint16_t FramesPerBlock;
uint16_t CodecDelay;
} hb_wave_mp3_t;
static void WriteBuffer( FILE * file, hb_buffer_t * buf )
{
fwrite( buf->data, buf->size, 1, file );
}
/* Little-endian write routines */
static void WriteInt8( FILE * file, uint8_t val )
{
fputc( val, file );
}
static void WriteInt16( FILE * file, uint16_t val )
{
fputc( val & 0xFF, file );
fputc( val >> 8, file );
}
static void WriteInt32( FILE * file, uint32_t val )
{
fputc( val & 0xFF, file );
fputc( ( val >> 8 ) & 0xFF, file );
fputc( ( val >> 16 ) & 0xFF, file );
fputc( val >> 24, file );
}
static void WriteBitmapInfo( FILE * file, hb_bitmap_info_t * info )
{
WriteInt32( file, info->FourCC );
WriteInt32( file, info->BytesCount );
WriteInt32( file, info->Size );
WriteInt32( file, info->Width );
WriteInt32( file, info->Height );
WriteInt16( file, info->Planes );
WriteInt16( file, info->BitCount );
WriteInt32( file, info->Compression );
WriteInt32( file, info->SizeImage );
WriteInt32( file, info->XPelsPerMeter );
WriteInt32( file, info->YPelsPerMeter );
WriteInt32( file, info->ClrUsed );
WriteInt32( file, info->ClrImportant );
}
static void WriteWaveFormatEx( FILE * file, hb_wave_formatex_t * format )
{
WriteInt32( file, format->FourCC );
WriteInt32( file, format->BytesCount );
WriteInt16( file, format->FormatTag );
WriteInt16( file, format->Channels );
WriteInt32( file, format->SamplesPerSec );
WriteInt32( file, format->AvgBytesPerSec );
WriteInt16( file, format->BlockAlign );
WriteInt16( file, format->BitsPerSample );
WriteInt16( file, format->Size );
}
static void WriteWaveMp3( FILE * file, hb_wave_mp3_t * mp3 )
{
WriteInt16( file, mp3->Id );
WriteInt32( file, mp3->Flags );
WriteInt16( file, mp3->BlockSize );
WriteInt16( file, mp3->FramesPerBlock );
WriteInt16( file, mp3->CodecDelay );
}
static void WriteMainHeader( FILE * file, hb_avi_main_header_t * header )
{
WriteInt32( file, header->FourCC );
WriteInt32( file, header->BytesCount );
WriteInt32( file, header->MicroSecPerFrame );
WriteInt32( file, header->MaxBytesPerSec );
WriteInt32( file, header->PaddingGranularity );
WriteInt32( file, header->Flags );
WriteInt32( file, header->TotalFrames );
WriteInt32( file, header->InitialFrames );
WriteInt32( file, header->Streams );
WriteInt32( file, header->SuggestedBufferSize );
WriteInt32( file, header->Width );
WriteInt32( file, header->Height );
WriteInt32( file, header->Reserved[0] );
WriteInt32( file, header->Reserved[1] );
WriteInt32( file, header->Reserved[2] );
WriteInt32( file, header->Reserved[3] );
}
static void WriteStreamHeader( FILE * file, hb_avi_stream_header_t * header )
{
WriteInt32( file, header->FourCC );
WriteInt32( file, header->BytesCount );
WriteInt32( file, header->Type );
WriteInt32( file, header->Handler );
WriteInt32( file, header->Flags );
WriteInt16( file, header->Priority );
WriteInt16( file, header->Language );
WriteInt32( file, header->InitialFrames );
WriteInt32( file, header->Scale );
WriteInt32( file, header->Rate );
WriteInt32( file, header->Start );
WriteInt32( file, header->Length );
WriteInt32( file, header->SuggestedBufferSize );
WriteInt32( file, header->Quality );
WriteInt32( file, header->SampleSize );
WriteInt16( file, header->Left );
WriteInt16( file, header->Top );
WriteInt16( file, header->Right );
WriteInt16( file, header->Bottom );
}
static void IndexAddInt32( hb_buffer_t * b, uint32_t val )
{
if( b->size + 16 > b->alloc )
{
hb_log( "muxavi: reallocing index (%d MB)",
1 + b->alloc / 1024 / 1024 );
hb_buffer_realloc( b, b->alloc + 1024 * 1024 );
}
b->data[b->size++] = val & 0xFF;
b->data[b->size++] = ( val >> 8 ) & 0xFF;
b->data[b->size++] = ( val >> 16 ) & 0xFF;
b->data[b->size++] = val >> 24;
}
struct hb_mux_object_s
{
HB_MUX_COMMON;
hb_job_t * job;
/* Data size in bytes, not including headers */
unsigned size;
FILE * file;
hb_buffer_t * index;
hb_avi_main_header_t main_header;
};
struct hb_mux_data_s
{
uint32_t fourcc;
hb_avi_stream_header_t header;
union
{
hb_bitmap_info_t v;
struct
{
hb_wave_formatex_t f;
hb_wave_mp3_t m;
} a;
} format;
};
static void AddIndex( hb_mux_object_t * m )
{
fseek( m->file, 0, SEEK_END );
/* Write the index at the end of the file */
WriteInt32( m->file, FOURCC( "idx1" ) );
WriteInt32( m->file, m->index->size );
WriteBuffer( m->file, m->index );
/* Update file size */
m->size += 8 + m->index->size;
fseek( m->file, 4, SEEK_SET );
WriteInt32( m->file, 2040 + m->size );
/* Update HASINDEX flag */
m->main_header.Flags |= AVIF_HASINDEX;
fseek( m->file, 24, SEEK_SET );
WriteMainHeader( m->file, &m->main_header );
}
/**********************************************************************
* AVIInit
**********************************************************************
* Allocates things, create file, initialize and write headers
*********************************************************************/
static int AVIInit( hb_mux_object_t * m )
{
hb_job_t * job = m->job;
hb_title_t * title = job->title;
hb_audio_t * audio;
hb_mux_data_t * mux_data;
int audio_count = hb_list_count( title->list_audio );
int is_ac3 = ( job->acodec & HB_ACODEC_AC3 );
int hdrl_bytes;
int i;
/* Allocate index */
m->index = hb_buffer_init( 1024 * 1024 );
m->index->size = 0;
/* Open destination file */
hb_log( "muxavi: opening %s", job->file );
m->file = fopen( job->file, "wb" );
#define m m->main_header
/* AVI main header */
m.FourCC = FOURCC( "avih" );
m.BytesCount = sizeof( hb_avi_main_header_t ) - 8;
m.MicroSecPerFrame = (uint64_t) 1000000 * job->vrate_base / job->vrate;
m.Streams = 1 + audio_count;
m.Width = job->width;
m.Height = job->height;
#undef m
/* Video track */
mux_data = calloc( sizeof( hb_mux_data_t ), 1 );
job->mux_data = mux_data;
#define h mux_data->header
/* Video stream header */
h.FourCC = FOURCC( "strh" );
h.BytesCount = sizeof( hb_avi_stream_header_t ) - 8;
h.Type = FOURCC( "vids" );
if( job->vcodec == HB_VCODEC_FFMPEG )
h.Handler = FOURCC( "divx" );
else if( job->vcodec == HB_VCODEC_XVID )
h.Handler = FOURCC( "xvid" );
else if( job->vcodec == HB_VCODEC_X264 )
h.Handler = FOURCC( "h264" );
h.Scale = job->vrate_base;
h.Rate = job->vrate;
#undef h
#define f mux_data->format.v
/* Video stream format */
f.FourCC = FOURCC( "strf" );
f.BytesCount = sizeof( hb_bitmap_info_t ) - 8;
f.Size = f.BytesCount;
f.Width = job->width;
f.Height = job->height;
f.Planes = 1;
f.BitCount = 24;
if( job->vcodec == HB_VCODEC_FFMPEG )
f.Compression = FOURCC( "DX50" );
else if( job->vcodec == HB_VCODEC_XVID )
f.Compression = FOURCC( "XVID" );
else if( job->vcodec == HB_VCODEC_X264 )
f.Compression = FOURCC( "H264" );
#undef f
/* Audio tracks */
for( i = 0; i < hb_list_count( title->list_audio ); i++ )
{
audio = hb_list_item( title->list_audio, i );
mux_data = calloc( sizeof( hb_mux_data_t ), 1 );
audio->mux_data = mux_data;
#define h mux_data->header
#define f mux_data->format.a.f
#define m mux_data->format.a.m
/* Audio stream header */
h.FourCC = FOURCC( "strh" );
h.BytesCount = sizeof( hb_avi_stream_header_t ) - 8;
h.Type = FOURCC( "auds" );
h.InitialFrames = 1;
h.Scale = 1;
h.Rate = is_ac3 ? ( audio->bitrate / 8 ) :
( job->abitrate * 1000 / 8 );
h.Quality = 0xFFFFFFFF;
h.SampleSize = 1;
/* Audio stream format */
f.FourCC = FOURCC( "strf" );
if( is_ac3 )
{
f.BytesCount = sizeof( hb_wave_formatex_t ) - 8;
f.FormatTag = 0x2000;
f.Channels = HB_INPUT_CH_LAYOUT_GET_DISCRETE_COUNT(audio->input_channel_layout);
f.SamplesPerSec = audio->rate;
}
else
{
f.BytesCount = sizeof( hb_wave_formatex_t ) +
sizeof( hb_wave_mp3_t ) - 8;
f.FormatTag = 0x55;
f.Channels = HB_AMIXDOWN_GET_DISCRETE_CHANNEL_COUNT(job->audio_mixdowns[i]);
f.SamplesPerSec = job->arate;
}
f.AvgBytesPerSec = h.Rate;
f.BlockAlign = 1;
if( is_ac3 )
{
f.Size = 0;
}
else
{
f.Size = sizeof( hb_wave_mp3_t );
m.Id = 1;
m.Flags = 2;
m.BlockSize = 1152 * f.AvgBytesPerSec / job->arate;
m.FramesPerBlock = 1;
m.CodecDelay = 1393;
}
#undef h
#undef f
#undef m
}
hdrl_bytes =
/* Main header */
4 + sizeof( hb_avi_main_header_t ) +
/* strh for video + audios */
( 1 + audio_count ) * ( 12 + sizeof( hb_avi_stream_header_t ) ) +
/* video strf */
sizeof( hb_bitmap_info_t ) +
/* audios strf */
audio_count * ( sizeof( hb_wave_formatex_t ) +
( is_ac3 ? 0 : sizeof( hb_wave_mp3_t ) ) );
/* Here we really start to write into the file */
/* Main headers */
WriteInt32( m->file, FOURCC( "RIFF" ) );
WriteInt32( m->file, 2040 );
WriteInt32( m->file, FOURCC( "AVI " ) );
WriteInt32( m->file, FOURCC( "LIST" ) );
WriteInt32( m->file, hdrl_bytes );
WriteInt32( m->file, FOURCC( "hdrl" ) );
WriteMainHeader( m->file, &m->main_header );
/* Video track */
mux_data = job->mux_data;
mux_data->fourcc = FOURCC( "00dc" );
WriteInt32( m->file, FOURCC( "LIST" ) );
WriteInt32( m->file, 4 + sizeof( hb_avi_stream_header_t ) +
sizeof( hb_bitmap_info_t ) );
WriteInt32( m->file, FOURCC( "strl" ) );
WriteStreamHeader( m->file, &mux_data->header );
WriteBitmapInfo( m->file, &mux_data->format.v );
/* Audio tracks */
for( i = 0; i < audio_count; i++ )
{
char fourcc[4] = "00wb";
audio = hb_list_item( title->list_audio, i );
mux_data = audio->mux_data;
fourcc[1] = '1' + i; /* This is fine as we don't allow more
than 8 tracks */
mux_data->fourcc = FOURCC( fourcc );
WriteInt32( m->file, FOURCC( "LIST" ) );
WriteInt32( m->file, 4 + sizeof( hb_avi_stream_header_t ) +
sizeof( hb_wave_formatex_t ) +
( is_ac3 ? 0 : sizeof( hb_wave_mp3_t ) ) );
WriteInt32( m->file, FOURCC( "strl" ) );
WriteStreamHeader( m->file, &mux_data->header );
WriteWaveFormatEx( m->file, &mux_data->format.a.f );
if( !is_ac3 )
{
WriteWaveMp3( m->file, &mux_data->format.a.m );
}
}
WriteInt32( m->file, FOURCC( "JUNK" ) );
WriteInt32( m->file, 2020 - hdrl_bytes );
for( i = 0; i < 2020 - hdrl_bytes; i++ )
{
WriteInt8( m->file, 0 );
}
WriteInt32( m->file, FOURCC( "LIST" ) );
WriteInt32( m->file, 4 );
WriteInt32( m->file, FOURCC( "movi" ) );
return 0;
}
static int AVIMux( hb_mux_object_t * m, hb_mux_data_t * mux_data,
hb_buffer_t * buf )
{
hb_job_t * job = m->job;
hb_title_t * title = job->title;
hb_audio_t * audio;
int i;
/* Update index */
IndexAddInt32( m->index, mux_data->fourcc );
IndexAddInt32( m->index, buf->key ? AVIIF_KEYFRAME : 0 );
IndexAddInt32( m->index, 4 + m->size );
IndexAddInt32( m->index, buf->size );
/* Write the chunk to the file */
fseek( m->file, 0, SEEK_END );
WriteInt32( m->file, mux_data->fourcc );
WriteInt32( m->file, buf->size );
WriteBuffer( m->file, buf );
/* Chunks must be 2-bytes aligned */
if( buf->size & 1 )
{
WriteInt8( m->file, 0 );
}
/* Update headers */
m->size += 8 + EVEN( buf->size );
mux_data->header.Length++;
/* RIFF size */
fseek( m->file, 4, SEEK_SET );
WriteInt32( m->file, 2052 + m->size );
/* Mmmmh that's not nice */
fseek( m->file, 140, SEEK_SET );
WriteInt32( m->file, job->mux_data->header.Length );
for( i = 0; i < hb_list_count( title->list_audio ); i++ )
{
audio = hb_list_item( title->list_audio, i );
fseek( m->file, 264 + i *
( 102 + ( ( job->acodec & HB_ACODEC_AC3 ) ? 0 :
sizeof( hb_wave_mp3_t ) ) ), SEEK_SET );
WriteInt32( m->file, audio->mux_data->header.Length );
}
/* movi size */
fseek( m->file, 2052, SEEK_SET );
WriteInt32( m->file, 4 + m->size );
return 0;
}
static int AVIEnd( hb_mux_object_t * m )
{
hb_job_t * job = m->job;
hb_log( "muxavi: writing index" );
AddIndex( m );
hb_log( "muxavi: closing %s", job->file );
fclose( m->file );
hb_buffer_close( &m->index );
return 0;
}
hb_mux_object_t * hb_mux_avi_init( hb_job_t * job )
{
hb_mux_object_t * m = calloc( sizeof( hb_mux_object_t ), 1 );
m->init = AVIInit;
m->mux = AVIMux;
m->end = AVIEnd;
m->job = job;
return m;
}
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