Exemplo n.º 1
0
static int open_file( char *psz_filename, hnd_t *p_handle, cli_output_opt_t *opt )
{
    *p_handle = NULL;

    int b_regular = strcmp( psz_filename, "-" );
    b_regular = b_regular && x264_is_regular_file_path( psz_filename );
    if( b_regular )
    {
        FILE *fh = x264_fopen( psz_filename, "wb" );
        MP4_FAIL_IF_ERR( !fh, "cannot open output file `%s'.\n", psz_filename );
        b_regular = x264_is_regular_file( fh );
        fclose( fh );
    }

    mp4_hnd_t *p_mp4 = calloc( 1, sizeof(mp4_hnd_t) );
    MP4_FAIL_IF_ERR( !p_mp4, "failed to allocate memory for muxer information.\n" );

    p_mp4->b_dts_compress = opt->use_dts_compress;
    p_mp4->b_use_recovery = 0; // we don't really support recovery
    p_mp4->b_fragments    = !b_regular;
    p_mp4->b_stdout       = !strcmp( psz_filename, "-" );

    p_mp4->p_root = lsmash_open_movie( psz_filename, p_mp4->b_fragments ? LSMASH_FILE_MODE_WRITE_FRAGMENTED : LSMASH_FILE_MODE_WRITE );
    MP4_FAIL_IF_ERR_EX( !p_mp4->p_root, "failed to create root.\n" );

    p_mp4->summary = (lsmash_video_summary_t *)lsmash_create_summary( LSMASH_SUMMARY_TYPE_VIDEO );
    MP4_FAIL_IF_ERR_EX( !p_mp4->summary,
                        "failed to allocate memory for summary information of video.\n" );
    p_mp4->summary->sample_type = ISOM_CODEC_TYPE_AVC1_VIDEO;

    *p_handle = p_mp4;

    return 0;
}
Exemplo n.º 2
0
Arquivo: mp4.c Projeto: zoominla/x264
static int open_file( char *psz_filename, hnd_t *p_handle, cli_output_opt_t *opt )
{
    mp4_hnd_t *p_mp4;

    *p_handle = NULL;
    FILE *fh = fopen( psz_filename, "w" );
    if( !fh )
        return -1;
    FAIL_IF_ERR( !x264_is_regular_file( fh ), "mp4", "MP4 output is incompatible with non-regular file `%s'\n", psz_filename )
    fclose( fh );

    if( !(p_mp4 = malloc( sizeof(mp4_hnd_t) )) )
        return -1;

    memset( p_mp4, 0, sizeof(mp4_hnd_t) );
    p_mp4->p_file = gf_isom_open( psz_filename, GF_ISOM_OPEN_WRITE, NULL );

    p_mp4->b_dts_compress = opt->use_dts_compress;

    if( !(p_mp4->p_sample = gf_isom_sample_new()) )
    {
        close_file( p_mp4, 0, 0 );
        return -1;
    }

    gf_isom_set_brand_info( p_mp4->p_file, GF_ISOM_BRAND_AVC1, 0 );

    *p_handle = p_mp4;

    return 0;
}
Exemplo n.º 3
0
static int read_frame( cli_pic_t *pic, hnd_t handle, int i_frame )
{
    raw_hnd_t *h = handle;

    if( h->use_mmap )
    {
        pic->img.plane[0] = x264_cli_mmap( &h->mmap, i_frame * h->frame_size, h->frame_size );
        if( !pic->img.plane[0] )
            return -1;
    }
    else if( i_frame > h->next_frame )
    {
        if( x264_is_regular_file( h->fh ) )
            fseek( h->fh, i_frame * h->frame_size, SEEK_SET );
        else
            while( i_frame > h->next_frame )
            {
                if( read_frame_internal( pic, h, 0 ) )
                    return -1;
                h->next_frame++;
            }
    }

    if( read_frame_internal( pic, h, h->bit_depth & 7 ) )
        return -1;

    h->next_frame = i_frame+1;
    return 0;
}
Exemplo n.º 4
0
static int close_file( hnd_t handle, int64_t largest_pts, int64_t second_largest_pts )
{
    flv_hnd_t *p_flv = handle;
    flv_buffer *c = p_flv->c;

    CHECK( flv_flush_data( c ) );

    double total_duration = (2 * largest_pts - second_largest_pts) * p_flv->d_timebase;

    if( x264_is_regular_file( c->fp ) )
    {
        double framerate;
        uint64_t filesize = ftell( c->fp );

        if( p_flv->i_framerate_pos )
        {
            framerate = (double)p_flv->i_framenum / total_duration;
            rewrite_amf_double( c->fp, p_flv->i_framerate_pos, framerate );
        }

        rewrite_amf_double( c->fp, p_flv->i_duration_pos, total_duration );
        rewrite_amf_double( c->fp, p_flv->i_filesize_pos, filesize );
        rewrite_amf_double( c->fp, p_flv->i_bitrate_pos, filesize * 8 / ( total_duration * 1000 ) );
    }

    fclose( c->fp );
    free( p_flv );
    free( c );

    return 0;
}
Exemplo n.º 5
0
static int open_file( char *psz_filename, hnd_t *p_handle, cli_output_opt_t *opt )
{
    mp4_hnd_t *p_mp4;

    *p_handle = NULL;

    int b_regular = strcmp( psz_filename, "-" );
    b_regular = b_regular && x264_is_regular_file_path( psz_filename );
    if( b_regular )
    {
        FILE *fh = x264_fopen( psz_filename, "wb" );
        MP4_FAIL_IF_ERR( !fh, "cannot open output file `%s'.\n", psz_filename );
        b_regular = x264_is_regular_file( fh );
        fclose( fh );
    }

    p_mp4 = malloc( sizeof(mp4_hnd_t) );
    MP4_FAIL_IF_ERR( !p_mp4, "failed to allocate memory for muxer information.\n" );
    memset( p_mp4, 0, sizeof(mp4_hnd_t) );

    p_mp4->b_dts_compress = opt->use_dts_compress;
    p_mp4->b_use_recovery = 0;
    p_mp4->b_no_pasp      = 0;
    p_mp4->scale_method   = ISOM_SCALE_METHOD_MEET;
    p_mp4->b_fragments    = !b_regular;
    p_mp4->b_stdout       = !strcmp( psz_filename, "-" );

    char* ext = get_filename_extension( psz_filename );
    if( !strcmp( ext, "mov" ) || !strcmp( ext, "qt" ) )
    {
        p_mp4->major_brand = ISOM_BRAND_TYPE_QT;
        p_mp4->b_brand_qt = 1;
    }
    else if( !strcmp( ext, "3gp" ) )
    {
        p_mp4->major_brand = ISOM_BRAND_TYPE_3GP6;
        p_mp4->i_brand_3gpp = 1;
    }
    else if( !strcmp( ext, "3g2" ) )
    {
        p_mp4->major_brand = ISOM_BRAND_TYPE_3G2A;
        p_mp4->i_brand_3gpp = 2;
    }
    else
        p_mp4->major_brand = ISOM_BRAND_TYPE_MP42;

    p_mp4->p_root = lsmash_open_movie( psz_filename, p_mp4->b_fragments ? LSMASH_FILE_MODE_WRITE_FRAGMENTED : LSMASH_FILE_MODE_WRITE );
    MP4_FAIL_IF_ERR_EX( !p_mp4->p_root, "failed to create root.\n" );

    p_mp4->summary = (lsmash_video_summary_t *)lsmash_create_summary( LSMASH_SUMMARY_TYPE_VIDEO );
    MP4_FAIL_IF_ERR_EX( !p_mp4->summary,
                        "failed to allocate memory for summary information of video.\n" );
    p_mp4->summary->sample_type = ISOM_CODEC_TYPE_AVC1_VIDEO;

    *p_handle = p_mp4;

    return 0;
}
Exemplo n.º 6
0
static int open_file( char *psz_filename, hnd_t *p_handle, video_info_t *info, cli_input_opt_t *opt )
{
    int ret = 0;
    FILE *tcfile_in;
    timecode_hnd_t *h = malloc( sizeof(timecode_hnd_t) );
    if( !h )
    {
        fprintf( stderr, "timecode [error]: malloc failed\n" );
        return -1;
    }
    h->input = input;
    h->p_handle = *p_handle;
    h->frame_total = input.get_frame_total( h->p_handle );
    h->seek = opt->seek;
    if( opt->timebase )
        ret = sscanf( opt->timebase, "%d/%d", &h->timebase_num, &h->timebase_den );
    if( ret == 1 )
        h->timebase_num = atoi( opt->timebase );
    h->auto_timebase_num = !ret;
    h->auto_timebase_den = ret < 2;
    if( h->auto_timebase_num )
        h->timebase_num = info->fps_den; /* can be changed later by auto timebase generation */
    if( h->auto_timebase_den )
        h->timebase_den = 0;             /* set later by auto timebase generation */
    timecode_input.picture_alloc = h->input.picture_alloc;
    timecode_input.picture_clean = h->input.picture_clean;

    *p_handle = h;

    tcfile_in = fopen( psz_filename, "rb" );
    if( !tcfile_in )
    {
        fprintf( stderr, "timecode [error]: can't open `%s'\n", psz_filename );
        return -1;
    }
    else if( !x264_is_regular_file( tcfile_in ) )
    {
        fprintf( stderr, "timecode [error]: tcfile input incompatible with non-regular file `%s'\n", psz_filename );
        fclose( tcfile_in );
        return -1;
    }

    if( parse_tcfile( tcfile_in, h, info ) < 0 )
    {
        if( h->pts )
            free( h->pts );
        fclose( tcfile_in );
        return -1;
    }
    fclose( tcfile_in );

    info->timebase_num = h->timebase_num;
    info->timebase_den = h->timebase_den;
    info->vfr = 1;

    return 0;
}
Exemplo n.º 7
0
Arquivo: raw.c Projeto: Yoko2012/H264
static int open_file( char *psz_filename, hnd_t *p_handle, video_info_t *info, cli_input_opt_t *opt )
{
    raw_hnd_t *h = (raw_hnd_t*)malloc( sizeof(raw_hnd_t) );
    if( !h )
        return -1;

    if( !opt->resolution )
    {
        /* try to parse the file name */
        for( char *p = psz_filename; *p; p++ )
            if( *p >= '0' && *p <= '9' && sscanf( p, "%ux%u", &info->width, &info->height ) == 2 )
                break;
    }
    else
        sscanf( opt->resolution, "%ux%u", &info->width, &info->height );
    FAIL_IF_ERROR( !info->width || !info->height, "raw input requires a resolution.\n" )

		if( opt->colorspace )
    {
        for( info->csp = X264_CSP_CLI_MAX-1; x264_cli_csps[info->csp].name && strcasecmp( x264_cli_csps[info->csp].name, opt->colorspace ); )
            info->csp--;
        FAIL_IF_ERROR( info->csp == X264_CSP_NONE, "unsupported colorspace `%s'\n", opt->colorspace );
    }
    else /* default */
        info->csp = X264_CSP_I420;

    h->next_frame = 0;
    info->vfr     = 0;

    if( !strcmp( psz_filename, "-" ) )
        h->fh = stdin;
    else
        h->fh = fopen( psz_filename, "rb" );
    if( h->fh == NULL )
        return -1;

    info->thread_safe = 1;
    info->num_frames  = 0;
    h->frame_size = 0;
    for( int i = 0; i < x264_cli_csps[info->csp].planes; i++ )
    {
        h->plane_size[i] = x264_cli_pic_plane_size( info->csp, info->width, info->height, i );
        h->frame_size += h->plane_size[i];
    }

    if( x264_is_regular_file( h->fh ) )
    {
        fseek( h->fh, 0, SEEK_END );
        uint64_t size = ftell( h->fh );
        fseek( h->fh, 0, SEEK_SET );
        info->num_frames = size / h->frame_size;
    }

    *p_handle = h;
    return 0;
}
Exemplo n.º 8
0
Arquivo: avi.c Projeto: Oblong/x264vfw
static int open_file( char *psz_filename, hnd_t *p_handle, cli_output_opt_t *opt )
{
    avi_hnd_t *h;
    AVOutputFormat *mux_fmt;

    *p_handle = NULL;

    FILE *fh = fopen( psz_filename, "w" );
    if( !fh )
        return -1;
    int b_regular = x264_is_regular_file( fh );
    fclose( fh );
    if( !b_regular )
    {
        x264vfw_cli_log( opt->p_private, "avi", X264_LOG_ERROR, "AVI output is incompatible with non-regular file `%s'\n", psz_filename );
        return -1;
    }

    if( !(h = malloc( sizeof(avi_hnd_t) )) )
        return -1;
    memset( h, 0, sizeof(avi_hnd_t) );

    memcpy( &h->opt, opt, sizeof(cli_output_opt_t) );

    av_register_all();
    mux_fmt = av_guess_format( "avi", NULL, NULL );
    if( !mux_fmt )
    {
        close_file( h, 0, 0 );
        return -1;
    }

    h->mux_fc = avformat_alloc_context();
    if( !h->mux_fc )
    {
        close_file( h, 0, 0 );
        return -1;
    }
    h->mux_fc->oformat = mux_fmt;
    memset( h->mux_fc->filename, 0, sizeof(h->mux_fc->filename) );
    snprintf( h->mux_fc->filename, sizeof(h->mux_fc->filename) - 1, "%s", psz_filename );

    if( avio_open( &h->mux_fc->pb, psz_filename, AVIO_FLAG_WRITE ) < 0 )
    {
        close_file( h, 0, 0 );
        return -1;
    }

    *p_handle = h;

    return 0;
}
Exemplo n.º 9
0
Arquivo: yuv.c Projeto: tufei/x264c64
static int get_frame_total( hnd_t handle )
{
    yuv_hnd_t *h = handle;
    int i_frame_total = 0;

    if( x264_is_regular_file( h->fh ) )
    {
        fseek( h->fh, 0, SEEK_END );
        uint64_t i_size = ftell( h->fh );
        fseek( h->fh, 0, SEEK_SET );
        i_frame_total = (int)(i_size / ( h->width * h->height * 3 / 2 ));
    }

    return i_frame_total;
}
Exemplo n.º 10
0
int mk_close( mk_writer *w, int64_t last_delta )
{
    int ret = 0;
    if( mk_flush_frame( w ) < 0 || mk_close_cluster( w ) < 0 )
        ret = -1;
    if( w->wrote_header && x264_is_regular_file( w->fp ) )
    {
        fseek( w->fp, w->duration_ptr, SEEK_SET );
        int64_t last_frametime = w->def_duration ? w->def_duration : last_delta;
        int64_t total_duration = w->max_frame_tc+last_frametime;
        if( mk_write_float_raw( w->root, (float)((double)total_duration / w->timescale) ) < 0 ||
            mk_flush_context_data( w->root ) < 0 )
            ret = -1;
    }
    mk_destroy_contexts( w );
    fclose( w->fp );
    free( w );
    return ret;
}
Exemplo n.º 11
0
static int open_file( char *psz_filename, hnd_t *p_handle, cli_output_opt_t *opt )
{
    mp4_hnd_t *p_mp4;

    *p_handle = NULL;
    FILE *fh = x264_fopen( psz_filename, "w" );
    if( !fh )
        return -1;
    FAIL_IF_ERR( !x264_is_regular_file( fh ), "mp4", "MP4 output is incompatible with non-regular file `%s'\n", psz_filename )
    fclose( fh );

    if( !(p_mp4 = malloc( sizeof(mp4_hnd_t) )) )
        return -1;

    memset( p_mp4, 0, sizeof(mp4_hnd_t) );

#ifdef _WIN32
    /* GPAC doesn't support Unicode filenames. */
    char ansi_filename[MAX_PATH];
    FAIL_IF_ERR( !x264_ansi_filename( psz_filename, ansi_filename, MAX_PATH, 1 ), "mp4", "invalid ansi filename\n" )
    p_mp4->p_file = gf_isom_open( ansi_filename, GF_ISOM_OPEN_WRITE, NULL );
#else
    p_mp4->p_file = gf_isom_open( psz_filename, GF_ISOM_OPEN_WRITE, NULL );
#endif

    p_mp4->b_dts_compress = opt->use_dts_compress;

    if( !(p_mp4->p_sample = gf_isom_sample_new()) )
    {
        close_file( p_mp4, 0, 0 );
        return -1;
    }

    gf_isom_set_brand_info( p_mp4->p_file, GF_ISOM_BRAND_AVC1, 0 );

    *p_handle = p_mp4;

    return 0;
}
Exemplo n.º 12
0
static int read_frame( cli_pic_t *pic, hnd_t handle, int i_frame )
{
    y4m_hnd_t *h = handle;

    if( i_frame > h->next_frame )
    {
        if( x264_is_regular_file( h->fh ) )
            fseek( h->fh, h->frame_size * i_frame + h->seq_header_len, SEEK_SET );
        else
            while( i_frame > h->next_frame )
            {
                if( read_frame_internal( pic, h ) )
                    return -1;
                h->next_frame++;
            }
    }

    if( read_frame_internal( pic, h ) )
        return -1;

    h->next_frame = i_frame+1;
    return 0;
}
Exemplo n.º 13
0
Arquivo: yuv.c Projeto: tufei/x264c64
static int read_frame( x264_picture_t *p_pic, hnd_t handle, int i_frame )
{
    yuv_hnd_t *h = handle;

    if( i_frame > h->next_frame )
    {
        if( x264_is_regular_file( h->fh ) )
            fseek( h->fh, (uint64_t)i_frame * h->width * h->height * 3 / 2, SEEK_SET );
        else
            while( i_frame > h->next_frame )
            {
                if( read_frame_internal( p_pic, h ) )
                    return -1;
                h->next_frame++;
            }
    }

    if( read_frame_internal( p_pic, h ) )
        return -1;

    h->next_frame = i_frame+1;
    return 0;
}
Exemplo n.º 14
0
Arquivo: raw.c Projeto: Yoko2012/H264
static int read_frame( cli_pic_t *pic, hnd_t handle, int i_frame )
{
    raw_hnd_t *h = (raw_hnd_t*)handle;

    if( i_frame > h->next_frame )
    {
        if( x264_is_regular_file( h->fh ) )
            fseek( h->fh, i_frame * h->frame_size, SEEK_SET );
        else
            while( i_frame > h->next_frame )
            {
                if( read_frame_internal( pic, h ) )
                    return -1;
                h->next_frame++;
            }
    }

    if( read_frame_internal( pic, h ) )
        return -1;

    h->next_frame = i_frame+1;
    return 0;
}
Exemplo n.º 15
0
static int open_file( char *psz_filename, hnd_t *p_handle, video_info_t *info, cli_input_opt_t *opt )
{
    FILE *fh = fopen( psz_filename, "r" );
    if( !fh )
        return -1;
    FAIL_IF_ERROR( !x264_is_regular_file( fh ), "AVS input is incompatible with non-regular file `%s'\n", psz_filename );
    fclose( fh );

    avs_hnd_t *h = malloc( sizeof(avs_hnd_t) );
    if( !h )
        return -1;
    FAIL_IF_ERROR( x264_avs_load_library( h ), "failed to load avisynth\n" )
    h->env = h->func.avs_create_script_environment( AVS_INTERFACE_25 );
    FAIL_IF_ERROR( !h->env, "failed to initiate avisynth\n" )
    AVS_Value arg = avs_new_value_string( psz_filename );
    AVS_Value res;
    char *filename_ext = get_filename_extension( psz_filename );

    if( !strcasecmp( filename_ext, "avs" ) )
    {
        res = h->func.avs_invoke( h->env, "Import", arg, NULL );
        FAIL_IF_ERROR( avs_is_error( res ), "%s\n", avs_as_string( res ) )
        /* check if the user is using a multi-threaded script and apply distributor if necessary.
           adapted from avisynth's vfw interface */
        AVS_Value mt_test = h->func.avs_invoke( h->env, "GetMTMode", avs_new_value_bool( 0 ), NULL );
        int mt_mode = avs_is_int( mt_test ) ? avs_as_int( mt_test ) : 0;
        h->func.avs_release_value( mt_test );
        if( mt_mode > 0 && mt_mode < 5 )
        {
            AVS_Value temp = h->func.avs_invoke( h->env, "Distributor", res, NULL );
            h->func.avs_release_value( res );
            res = temp;
        }
    }
    else /* non script file */
    {
        /* cycle through known source filters to find one that works */
        const char *filter[AVS_MAX_SEQUENCE+1] = { 0 };
        avs_build_filter_sequence( filename_ext, filter );
        int i;
        for( i = 0; filter[i]; i++ )
        {
            x264_cli_log( "avs", X264_LOG_INFO, "trying %s... ", filter[i] );
            if( !h->func.avs_function_exists( h->env, filter[i] ) )
            {
                x264_cli_printf( X264_LOG_INFO, "not found\n" );
                continue;
            }
            if( !strncasecmp( filter[i], "FFmpegSource", 12 ) )
            {
                x264_cli_printf( X264_LOG_INFO, "indexing... " );
                fflush( stderr );
            }
            res = h->func.avs_invoke( h->env, filter[i], arg, NULL );
            if( !avs_is_error( res ) )
            {
                x264_cli_printf( X264_LOG_INFO, "succeeded\n" );
                break;
            }
            x264_cli_printf( X264_LOG_INFO, "failed\n" );
        }
        FAIL_IF_ERROR( !filter[i], "unable to find source filter to open `%s'\n", psz_filename )
    }
    FAIL_IF_ERROR( !avs_is_clip( res ), "`%s' didn't return a video clip\n", psz_filename )
    h->clip = h->func.avs_take_clip( res, h->env );
    const AVS_VideoInfo *vi = h->func.avs_get_video_info( h->clip );
    FAIL_IF_ERROR( !avs_has_video( vi ), "`%s' has no video data\n", psz_filename )
    /* if the clip is made of fields instead of frames, call weave to make them frames */
    if( avs_is_field_based( vi ) )
    {
        x264_cli_log( "avs", X264_LOG_WARNING, "detected fieldbased (separated) input, weaving to frames\n" );
        AVS_Value tmp = h->func.avs_invoke( h->env, "Weave", res, NULL );
        FAIL_IF_ERROR( avs_is_error( tmp ), "couldn't weave fields into frames\n" )
        res = update_clip( h, &vi, tmp, res );
        info->interlaced = 1;
        info->tff = avs_is_tff( vi );
    }
#if !HAVE_SWSCALE
    /* if swscale is not available, convert CSPs to yv12 */
    if( !avs_is_yv12( vi ) )
    {
        x264_cli_log( "avs", X264_LOG_WARNING, "converting input clip to YV12\n" );
        FAIL_IF_ERROR( vi->width&1 || vi->height&1, "input clip width or height not divisible by 2 (%dx%d)\n", vi->width, vi->height )
        const char *arg_name[2] = { NULL, "interlaced" };
        AVS_Value arg_arr[2] = { res, avs_new_value_bool( info->interlaced ) };
        AVS_Value res2 = h->func.avs_invoke( h->env, "ConvertToYV12", avs_new_value_array( arg_arr, 2 ), arg_name );
        FAIL_IF_ERROR( avs_is_error( res2 ), "couldn't convert input clip to YV12\n" )
        res = update_clip( h, &vi, res2, res );
    }
Exemplo n.º 16
0
static int open_file( char *psz_filename, hnd_t *p_handle, video_info_t *info, cli_input_opt_t *opt )
{
    raw_hnd_t *h = calloc( 1, sizeof(raw_hnd_t) );
    if( !h )
        return -1;

    if( !opt->resolution )
    {
        /* try to parse the file name */
        for( char *p = psz_filename; *p; p++ )
            if( *p >= '0' && *p <= '9' && sscanf( p, "%dx%d", &info->width, &info->height ) == 2 )
                break;
    }
    else
        sscanf( opt->resolution, "%dx%d", &info->width, &info->height );
    FAIL_IF_ERROR( !info->width || !info->height, "raw input requires a resolution.\n" )
    if( opt->colorspace )
    {
        for( info->csp = X264_CSP_CLI_MAX-1; info->csp > X264_CSP_NONE; info->csp-- )
        {
            if( x264_cli_csps[info->csp].name && !strcasecmp( x264_cli_csps[info->csp].name, opt->colorspace ) )
                break;
        }
        FAIL_IF_ERROR( info->csp == X264_CSP_NONE, "unsupported colorspace `%s'\n", opt->colorspace );
    }
    else /* default */
        info->csp = X264_CSP_I420;

    h->bit_depth = opt->bit_depth;
    FAIL_IF_ERROR( h->bit_depth < 8 || h->bit_depth > 16, "unsupported bit depth `%d'\n", h->bit_depth );
    if( h->bit_depth > 8 )
        info->csp |= X264_CSP_HIGH_DEPTH;

    if( !strcmp( psz_filename, "-" ) )
        h->fh = stdin;
    else
        h->fh = x264_fopen( psz_filename, "rb" );
    if( h->fh == NULL )
        return -1;

    info->thread_safe = 1;
    info->num_frames  = 0;
    info->vfr         = 0;

    const x264_cli_csp_t *csp = x264_cli_get_csp( info->csp );
    for( int i = 0; i < csp->planes; i++ )
    {
        h->plane_size[i] = x264_cli_pic_plane_size( info->csp, info->width, info->height, i );
        h->frame_size += h->plane_size[i];
        /* x264_cli_pic_plane_size returns the size in bytes, we need the value in pixels from here on */
        h->plane_size[i] /= x264_cli_csp_depth_factor( info->csp );
    }

    if( x264_is_regular_file( h->fh ) )
    {
        fseek( h->fh, 0, SEEK_END );
        uint64_t size = ftell( h->fh );
        fseek( h->fh, 0, SEEK_SET );
        info->num_frames = size / h->frame_size;

        /* Attempt to use memory-mapped input frames if possible */
        if( !(h->bit_depth & 7) )
            h->use_mmap = !x264_cli_mmap_init( &h->mmap, h->fh );
    }

    *p_handle = h;
    return 0;
}
Exemplo n.º 17
0
Arquivo: avs.c Projeto: xing2fan/x264
static int open_file( char *psz_filename, hnd_t *p_handle, video_info_t *info, cli_input_opt_t *opt )
{
    FILE *fh = x264_fopen( psz_filename, "r" );
    if( !fh )
        return -1;
    int b_regular = x264_is_regular_file( fh );
    fclose( fh );
    FAIL_IF_ERROR( !b_regular, "AVS input is incompatible with non-regular file `%s'\n", psz_filename );

    avs_hnd_t *h = calloc( 1, sizeof(avs_hnd_t) );
    if( !h )
        return -1;
    FAIL_IF_ERROR( custom_avs_load_library( h ), "failed to load avisynth\n" );
    h->env = h->func.avs_create_script_environment( AVS_INTERFACE_25 );
    if( h->func.avs_get_error )
    {
        const char *error = h->func.avs_get_error( h->env );
        FAIL_IF_ERROR( error, "%s\n", error );
    }
    float avs_version = get_avs_version( h );
    if( avs_version <= 0 )
        return -1;
    x264_cli_log( "avs", X264_LOG_DEBUG, "using avisynth version %.2f\n", avs_version );

#ifdef _WIN32
    /* Avisynth doesn't support Unicode filenames. */
    char ansi_filename[MAX_PATH];
    FAIL_IF_ERROR( !x264_ansi_filename( psz_filename, ansi_filename, MAX_PATH, 0 ), "invalid ansi filename\n" );
    AVS_Value arg = avs_new_value_string( ansi_filename );
#else
    AVS_Value arg = avs_new_value_string( psz_filename );
#endif

    AVS_Value res;
    char *filename_ext = get_filename_extension( psz_filename );

    if( !strcasecmp( filename_ext, "avs" ) )
    {
        res = h->func.avs_invoke( h->env, "Import", arg, NULL );
        FAIL_IF_ERROR( avs_is_error( res ), "%s\n", avs_as_error( res ) );
        /* check if the user is using a multi-threaded script and apply distributor if necessary.
           adapted from avisynth's vfw interface */
        AVS_Value mt_test = h->func.avs_invoke( h->env, "GetMTMode", avs_new_value_bool( 0 ), NULL );
        int mt_mode = avs_is_int( mt_test ) ? avs_as_int( mt_test ) : 0;
        h->func.avs_release_value( mt_test );
        if( mt_mode > 0 && mt_mode < 5 )
        {
            AVS_Value temp = h->func.avs_invoke( h->env, "Distributor", res, NULL );
            h->func.avs_release_value( res );
            res = temp;
        }
    }
    else /* non script file */
    {
        /* cycle through known source filters to find one that works */
        const char *filter[AVS_MAX_SEQUENCE+1] = { 0 };
        avs_build_filter_sequence( filename_ext, filter );
        int i;
        for( i = 0; filter[i]; i++ )
        {
            x264_cli_log( "avs", X264_LOG_INFO, "trying %s... ", filter[i] );
            if( !h->func.avs_function_exists( h->env, filter[i] ) )
            {
                x264_cli_printf( X264_LOG_INFO, "not found\n" );
                continue;
            }
            if( !strncasecmp( filter[i], "FFmpegSource", 12 ) )
            {
                x264_cli_printf( X264_LOG_INFO, "indexing... " );
                fflush( stderr );
            }
            res = h->func.avs_invoke( h->env, filter[i], arg, NULL );
            if( !avs_is_error( res ) )
            {
                x264_cli_printf( X264_LOG_INFO, "succeeded\n" );
                break;
            }
            x264_cli_printf( X264_LOG_INFO, "failed\n" );
        }
        FAIL_IF_ERROR( !filter[i], "unable to find source filter to open `%s'\n", psz_filename );
    }
    FAIL_IF_ERROR( !avs_is_clip( res ), "`%s' didn't return a video clip\n", psz_filename );
    h->clip = h->func.avs_take_clip( res, h->env );
    const AVS_VideoInfo *vi = h->func.avs_get_video_info( h->clip );
    FAIL_IF_ERROR( !avs_has_video( vi ), "`%s' has no video data\n", psz_filename );
    /* if the clip is made of fields instead of frames, call weave to make them frames */
    if( avs_is_field_based( vi ) )
    {
        x264_cli_log( "avs", X264_LOG_WARNING, "detected fieldbased (separated) input, weaving to frames\n" );
        AVS_Value tmp = h->func.avs_invoke( h->env, "Weave", res, NULL );
        FAIL_IF_ERROR( avs_is_error( tmp ), "couldn't weave fields into frames: %s\n", avs_as_error( tmp ) );
        res = update_clip( h, &vi, tmp, res );
        info->interlaced = 1;
        info->tff = avs_is_tff( vi );
    }
#if !HAVE_SWSCALE
    /* if swscale is not available, convert the CSP if necessary */
    FAIL_IF_ERROR( avs_version < 2.6f && (opt->output_csp == X264_CSP_I400 || opt->output_csp == X264_CSP_I422 || opt->output_csp == X264_CSP_I444),
                   "avisynth >= 2.6 is required for i400/i422/i444 output\n" );
    if( (opt->output_csp == X264_CSP_I400 && !AVS_IS_Y( vi )) ||
        (opt->output_csp == X264_CSP_I420 && !AVS_IS_420( vi )) ||
        (opt->output_csp == X264_CSP_I422 && !AVS_IS_422( vi )) ||
        (opt->output_csp == X264_CSP_I444 && !AVS_IS_444( vi )) ||
        (opt->output_csp == X264_CSP_RGB && !avs_is_rgb( vi )) )
    {
        const char *csp;
        if( AVS_IS_AVISYNTHPLUS )
        {
            csp = opt->output_csp == X264_CSP_I400 ? "Y" :
                  opt->output_csp == X264_CSP_I420 ? "YUV420" :
                  opt->output_csp == X264_CSP_I422 ? "YUV422" :
                  opt->output_csp == X264_CSP_I444 ? "YUV444" :
                  "RGB";
        }
        else
        {
            csp = opt->output_csp == X264_CSP_I400 ? "Y8" :
                  opt->output_csp == X264_CSP_I420 ? "YV12" :
                  opt->output_csp == X264_CSP_I422 ? "YV16" :
                  opt->output_csp == X264_CSP_I444 ? "YV24" :
                  "RGB";
        }
        x264_cli_log( "avs", X264_LOG_WARNING, "converting input clip to %s\n", csp );
        if( opt->output_csp != X264_CSP_I400 )
        {
            FAIL_IF_ERROR( opt->output_csp < X264_CSP_I444 && (vi->width&1),
                           "input clip width not divisible by 2 (%dx%d)\n", vi->width, vi->height );
            FAIL_IF_ERROR( opt->output_csp == X264_CSP_I420 && info->interlaced && (vi->height&3),
                           "input clip height not divisible by 4 (%dx%d)\n", vi->width, vi->height );
            FAIL_IF_ERROR( (opt->output_csp == X264_CSP_I420 || info->interlaced) && (vi->height&1),
                           "input clip height not divisible by 2 (%dx%d)\n", vi->width, vi->height );
        }
        char conv_func[16];
        snprintf( conv_func, sizeof(conv_func), "ConvertTo%s", csp );
        AVS_Value arg_arr[3];
        const char *arg_name[3];
        int arg_count = 1;
        arg_arr[0] = res;
        arg_name[0] = NULL;
        if( opt->output_csp != X264_CSP_I400 )
        {
            arg_arr[arg_count] = avs_new_value_bool( info->interlaced );
            arg_name[arg_count] = "interlaced";
            arg_count++;
        }
        /* if doing a rgb <-> yuv conversion then range is handled via 'matrix'. though it's only supported in 2.56+ */
        char matrix[7];
        if( avs_version >= 2.56f && ((opt->output_csp == X264_CSP_RGB && avs_is_yuv( vi )) || (opt->output_csp != X264_CSP_RGB && avs_is_rgb( vi ))) )
        {
            // if converting from yuv, then we specify the matrix for the input, otherwise use the output's.
            int use_pc_matrix = avs_is_yuv( vi ) ? opt->input_range == RANGE_PC : opt->output_range == RANGE_PC;
            snprintf( matrix, sizeof(matrix), "%s601", use_pc_matrix ? "PC." : "Rec" ); /* FIXME: use correct coefficients */
            arg_arr[arg_count] = avs_new_value_string( matrix );
            arg_name[arg_count] = "matrix";
            arg_count++;
            // notification that the input range has changed to the desired one
            opt->input_range = opt->output_range;
        }
        AVS_Value res2 = h->func.avs_invoke( h->env, conv_func, avs_new_value_array( arg_arr, arg_count ), arg_name );
        FAIL_IF_ERROR( avs_is_error( res2 ), "couldn't convert input clip to %s: %s\n", csp, avs_as_error( res2 ) );
        res = update_clip( h, &vi, res2, res );
    }
    /* if swscale is not available, change the range if necessary. This only applies to YUV-based CSPs however */
    if( avs_is_yuv( vi ) && opt->output_range != RANGE_AUTO && ((opt->input_range == RANGE_PC) != opt->output_range) )
    {
        const char *levels = opt->output_range ? "TV->PC" : "PC->TV";
        x264_cli_log( "avs", X264_LOG_WARNING, "performing %s conversion\n", levels );
        AVS_Value arg_arr[2];
        arg_arr[0] = res;
        arg_arr[1] = avs_new_value_string( levels );
        const char *arg_name[] = { NULL, "levels" };
        AVS_Value res2 = h->func.avs_invoke( h->env, "ColorYUV", avs_new_value_array( arg_arr, 2 ), arg_name );
        FAIL_IF_ERROR( avs_is_error( res2 ), "couldn't convert range: %s\n", avs_as_error( res2 ) );
        res = update_clip( h, &vi, res2, res );
        // notification that the input range has changed to the desired one
        opt->input_range = opt->output_range;
    }
#endif

    h->func.avs_release_value( res );

    info->width   = vi->width;
    info->height  = vi->height;
    info->fps_num = vi->fps_numerator;
    info->fps_den = vi->fps_denominator;
    h->num_frames = info->num_frames = vi->num_frames;
    info->thread_safe = 1;
    if( AVS_IS_RGB64( vi ) )
        info->csp = X264_CSP_BGRA | X264_CSP_VFLIP | X264_CSP_HIGH_DEPTH;
    else if( avs_is_rgb32( vi ) )
        info->csp = X264_CSP_BGRA | X264_CSP_VFLIP;
    else if( AVS_IS_RGB48( vi ) )
        info->csp = X264_CSP_BGR | X264_CSP_VFLIP | X264_CSP_HIGH_DEPTH;
    else if( avs_is_rgb24( vi ) )
        info->csp = X264_CSP_BGR | X264_CSP_VFLIP;
    else if( AVS_IS_YUV444P16( vi ) )
        info->csp = X264_CSP_I444 | X264_CSP_HIGH_DEPTH;
    else if( avs_is_yv24( vi ) )
        info->csp = X264_CSP_I444;
    else if( AVS_IS_YUV422P16( vi ) )
        info->csp = X264_CSP_I422 | X264_CSP_HIGH_DEPTH;
    else if( avs_is_yv16( vi ) )
        info->csp = X264_CSP_I422;
    else if( AVS_IS_YUV420P16( vi ) )
        info->csp = X264_CSP_I420 | X264_CSP_HIGH_DEPTH;
    else if( avs_is_yv12( vi ) )
        info->csp = X264_CSP_I420;
    else if( AVS_IS_Y16( vi ) )
        info->csp = X264_CSP_I400 | X264_CSP_HIGH_DEPTH;
    else if( avs_is_y8( vi ) )
        info->csp = X264_CSP_I400;
    else if( avs_is_yuy2( vi ) )
        info->csp = X264_CSP_YUYV;
#if HAVE_SWSCALE
    else if( avs_is_yv411( vi ) )
        info->csp = AV_PIX_FMT_YUV411P | X264_CSP_OTHER;
#endif
    else
    {
        AVS_Value pixel_type = h->func.avs_invoke( h->env, "PixelType", res, NULL );
        const char *pixel_type_name = avs_is_string( pixel_type ) ? avs_as_string( pixel_type ) : "unknown";
        FAIL_IF_ERROR( 1, "not supported pixel type: %s\n", pixel_type_name );
    }
    info->vfr = 0;

    *p_handle = h;
    return 0;
}
Exemplo n.º 18
0
static int open_file( char *psz_filename, hnd_t *p_handle, video_info_t *info, cli_input_opt_t *opt )
{
    y4m_hnd_t *h = malloc( sizeof(y4m_hnd_t) );
    int i;
    uint32_t n, d;
    char header[MAX_YUV4_HEADER+10];
    char *tokend, *header_end;
    int colorspace = X264_CSP_NONE;
    int alt_colorspace = X264_CSP_NONE;
    int alt_bit_depth  = 8;
    if( !h )
        return -1;

    h->next_frame = 0;
    info->vfr = 0;

    if( !strcmp( psz_filename, "-" ) )
        h->fh = stdin;
    else
        h->fh = fopen(psz_filename, "rb");
    if( h->fh == NULL )
        return -1;

    h->frame_header_len = strlen( Y4M_FRAME_MAGIC )+1;

    /* Read header */
    for( i = 0; i < MAX_YUV4_HEADER; i++ )
    {
        header[i] = fgetc( h->fh );
        if( header[i] == '\n' )
        {
            /* Add a space after last option. Makes parsing "444" vs
               "444alpha" easier. */
            header[i+1] = 0x20;
            header[i+2] = 0;
            break;
        }
    }
    if( i == MAX_YUV4_HEADER || strncmp( header, Y4M_MAGIC, strlen( Y4M_MAGIC ) ) )
        return -1;

    /* Scan properties */
    header_end = &header[i+1]; /* Include space */
    h->seq_header_len = i+1;
    for( char *tokstart = &header[strlen( Y4M_MAGIC )+1]; tokstart < header_end; tokstart++ )
    {
        if( *tokstart == 0x20 )
            continue;
        switch( *tokstart++ )
        {
            case 'W': /* Width. Required. */
                info->width = strtol( tokstart, &tokend, 10 );
                tokstart=tokend;
                break;
            case 'H': /* Height. Required. */
                info->height = strtol( tokstart, &tokend, 10 );
                tokstart=tokend;
                break;
            case 'C': /* Color space */
                colorspace = parse_csp_and_depth( tokstart, &h->bit_depth );
                tokstart = strchr( tokstart, 0x20 );
                break;
            case 'I': /* Interlace type */
                switch( *tokstart++ )
                {
                    case 't':
                        info->interlaced = 1;
                        info->tff = 1;
                        break;
                    case 'b':
                        info->interlaced = 1;
                        info->tff = 0;
                        break;
                    case 'm':
                        info->interlaced = 1;
                        break;
                    //case '?':
                    //case 'p':
                    default:
                        break;
                }
                break;
            case 'F': /* Frame rate - 0:0 if unknown */
                if( sscanf( tokstart, "%u:%u", &n, &d ) == 2 && n && d )
                {
                    x264_reduce_fraction( &n, &d );
                    info->fps_num = n;
                    info->fps_den = d;
                }
                tokstart = strchr( tokstart, 0x20 );
                break;
            case 'A': /* Pixel aspect - 0:0 if unknown */
                /* Don't override the aspect ratio if sar has been explicitly set on the commandline. */
                if( sscanf( tokstart, "%u:%u", &n, &d ) == 2 && n && d )
                {
                    x264_reduce_fraction( &n, &d );
                    info->sar_width  = n;
                    info->sar_height = d;
                }
                tokstart = strchr( tokstart, 0x20 );
                break;
            case 'X': /* Vendor extensions */
                if( !strncmp( "YSCSS=", tokstart, 6 ) )
                {
                    /* Older nonstandard pixel format representation */
                    tokstart += 6;
                    alt_colorspace = parse_csp_and_depth( tokstart, &alt_bit_depth );
                }
                tokstart = strchr( tokstart, 0x20 );
                break;
        }
    }

    if( colorspace == X264_CSP_NONE )
    {
        colorspace   = alt_colorspace;
        h->bit_depth = alt_bit_depth;
    }

    // default to 8bit 4:2:0 if nothing is specified
    if( colorspace == X264_CSP_NONE )
    {
        colorspace    = X264_CSP_I420;
        h->bit_depth  = 8;
    }

    FAIL_IF_ERROR( colorspace <= X264_CSP_NONE || colorspace >= X264_CSP_MAX, "colorspace unhandled\n" )
    FAIL_IF_ERROR( h->bit_depth < 8 || h->bit_depth > 16, "unsupported bit depth `%d'\n", h->bit_depth );

    info->thread_safe = 1;
    info->num_frames  = 0;
    info->csp         = colorspace;
    h->frame_size     = h->frame_header_len;

    if( h->bit_depth > 8 )
        info->csp |= X264_CSP_HIGH_DEPTH;

    const x264_cli_csp_t *csp = x264_cli_get_csp( info->csp );

    for( i = 0; i < csp->planes; i++ )
    {
        h->plane_size[i] = x264_cli_pic_plane_size( info->csp, info->width, info->height, i );
        h->frame_size += h->plane_size[i];
        /* x264_cli_pic_plane_size returns the size in bytes, we need the value in pixels from here on */
        h->plane_size[i] /= x264_cli_csp_depth_factor( info->csp );
    }

    /* Most common case: frame_header = "FRAME" */
    if( x264_is_regular_file( h->fh ) )
    {
        uint64_t init_pos = ftell( h->fh );
        fseek( h->fh, 0, SEEK_END );
        uint64_t i_size = ftell( h->fh );
        fseek( h->fh, init_pos, SEEK_SET );
        info->num_frames = (i_size - h->seq_header_len) / h->frame_size;
    }

    *p_handle = h;
    return 0;
}
static int open_file( char *psz_filename, hnd_t *p_handle, video_info_t *info, cli_input_opt_t *opt )
{
	vs_hnd_t *h = new vs_hnd_t;
    if( !h )
        return -1;
	
	FILE *fh = x264_fopen(psz_filename, "rb");
	if (!fh)
		return -1;
	int b_regular = x264_is_regular_file(fh);
	fclose(fh);
	FAIL_IF_ERROR(!b_regular, "VS input is incompatible with non-regular file `%s'\n", psz_filename);

	FAIL_IF_ERROR(!vsscript_init(), "Failed to initialize VapourSynth environment\n");
	h->vsapi = vsscript_getVSApi();
	if (!h->vsapi) {
		fprintf(stderr, "Failed to get VapourSynth API pointer\n");
		vsscript_finalize();
		return -1;
	}

	// Should always succeed
	if (vsscript_createScript(&h->se)) {
		fprintf(stderr, "Script environment initialization failed:\n%s\n", vsscript_getError(h->se));
		vsscript_freeScript(h->se);
		vsscript_finalize();
		return -1;
	}

	std::string strfilename = psz_filename;
	nstring scriptFilename = s2ws(strfilename);
	if (vsscript_evaluateFile(&h->se, nstringToUtf8(scriptFilename).c_str(), efSetWorkingDir)) {
		fprintf(stderr, "Script evaluation failed:\n%s\n", vsscript_getError(h->se));
		vsscript_freeScript(h->se);
		vsscript_finalize();
		return -1;
	}

	h->node = vsscript_getOutput(h->se, 0);//outputIndex
	if (!h->node) {
		fprintf(stderr, "Failed to retrieve output node. Invalid index specified?\n");
		vsscript_freeScript(h->se);
		vsscript_finalize();
		return -1;
	}

	const VSCoreInfo *vsInfo = h->vsapi->getCoreInfo(vsscript_getCore(h->se));
    h->sea = new semaphore(vsInfo->numThreads);

	const VSVideoInfo *vi = h->vsapi->getVideoInfo(h->node);
	if (vi->format->colorFamily != cmYUV) {
		fprintf(stderr, "Can only read YUV format clips"); 
		h->vsapi->freeNode(h->node);
		vsscript_freeScript(h->se);
		vsscript_finalize();
        return -1;
    }
	
	if (!isConstantFormat(vi)) {
		fprintf(stderr, "Cannot output clips with varying dimensions\n");
		h->vsapi->freeNode(h->node);
		vsscript_freeScript(h->se);
		vsscript_finalize();
		return -1;
	}

	info->width = vi->width;
	info->height = vi->height;
	info->fps_num = vi->fpsNum;
	info->fps_den = vi->fpsDen;
	info->thread_safe = 1;
	info->num_frames = vi->numFrames;

	if (vi->format->subSamplingW == 1 && vi->format->subSamplingH == 1)
		info->csp = X264_CSP_I420;
    else if (vi->format->subSamplingW == 1 && vi->format->subSamplingH == 0)
        info->csp = X264_CSP_I422;
    else if (vi->format->subSamplingW == 0 && vi->format->subSamplingH == 0)
        info->csp = X264_CSP_I444;


	h->bit_depth = vi->format->bitsPerSample;
	if (h->bit_depth > 8)
	{
		info->csp |= X264_CSP_HIGH_DEPTH;
	}

	*p_handle = (void*)h;
    return 0;
}