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  • MediaSPIP 0.1 Beta version

    25 avril 2011, par

    MediaSPIP 0.1 beta is the first version of MediaSPIP proclaimed as "usable".
    The zip file provided here only contains the sources of MediaSPIP in its standalone version.
    To get a working installation, you must manually install all-software dependencies on the server.
    If you want to use this archive for an installation in "farm mode", you will also need to proceed to other manual (...)

  • Multilang : améliorer l’interface pour les blocs multilingues

    18 février 2011, par

    Multilang est un plugin supplémentaire qui n’est pas activé par défaut lors de l’initialisation de MediaSPIP.
    Après son activation, une préconfiguration est mise en place automatiquement par MediaSPIP init permettant à la nouvelle fonctionnalité d’être automatiquement opérationnelle. Il n’est donc pas obligatoire de passer par une étape de configuration pour cela.

  • Use, discuss, criticize

    13 avril 2011, par

    Talk to people directly involved in MediaSPIP’s development, or to people around you who could use MediaSPIP to share, enhance or develop their creative projects.
    The bigger the community, the more MediaSPIP’s potential will be explored and the faster the software will evolve.
    A discussion list is available for all exchanges between users.

Sur d’autres sites (11740)

  • FFmpeg remuxing parts of an audio file

    22 décembre 2022, par zorleone

    I'm trying to remux individual tracks from a FLAC file using the FFmpeg libraries.
I get the starting timestamps from a Cue sheet, I seek to the timestamps using avformat_seek_file. However after writing the packets to output files, they only have data from the beginning of the input file.

    


    This is the code snippet which opens the input FLAC and also creates an output AVFormatContext for each track. I'm guessing the issue is avformat_seek_file, it doesn't seem to do anything, since even though I seek to the beginning of a track, the output file contains data from the beginning of the input.

    


        for(int i = 0; i <= sheet.ntracks; i++) {
        sheet.avfmtctx = avformat_alloc_context();
        if(avformat_open_input(&sheet.avfmtctx, sheet.file, NULL, NULL) < 0) {
            fprintf(stderr,
                    "avformat_open_input(): failed to open %s\n",
                    sheet.file);
            return 1;
        }
        int audio_stream_idx = -1;
        for(int i = 0; i < sheet.avfmtctx->nb_streams; i++) {
            if(sheet.avfmtctx->streams[i]->codecpar->codec_type == AVMEDIA_TYPE_AUDIO) {
                audio_stream_idx = i;
                break;
            }
        }
        avformat_find_stream_info(sheet.avfmtctx, NULL);
        AVFormatContext *output;
        char *filepath = title_to_filepath(&sheet.tracks[i], sheet.file);
        avformat_alloc_output_context2(&output, NULL, NULL, filepath);
        AVStream *out_audio_stream = avformat_new_stream(output, NULL);
        avcodec_parameters_copy(out_audio_stream->codecpar,
                                sheet.avfmtctx->streams[audio_stream_idx]->codecpar);

        if(avio_open(&output->pb, filepath, AVIO_FLAG_WRITE) < 0) {
            fprintf(stderr, "Failed to open %s for writing\n", filepath);
            return 1;
        }
        if(avformat_write_header(output, NULL) < 0) {
            fprintf(stderr, "avformat_write_header() failed\n");
            return 1;
        }
        int64_t current_frame = sheet.tracks[i].index;
        int64_t next_track_index = (i < sheet.ntracks) ?
                                   sheet.tracks[i + 1].index :
                                   INT64_MAX;
        if(avformat_seek_file(sheet.avfmtctx,
                           -1,
                           INT64_MIN,
                           current_frame,
                           current_frame,
                           0) < 0) {
            fprintf(stderr, "Failed to seek to the index of track %d\n", i);
            avformat_free_context(sheet.avfmtctx);
            sheet.avfmtctx = NULL;
            av_write_trailer(output);
            avio_closep(&output->pb);
            avformat_free_context(output);
            free(filepath);
            continue;
        }
        AVPacket *pkt = av_packet_alloc();
        int64_t pts_diff = AV_NOPTS_VALUE, dts_diff = AV_NOPTS_VALUE;
        while(current_frame < next_track_index && !avio_feof(output->pb)) {
            int ret;
            if((ret = av_read_frame(sheet.avfmtctx, pkt)) < 0) {
                if(ret != AVERROR_EOF)
                    fprintf(stderr, "av_read_frame() failed: %s\n", av_err2str(ret));
                break;
            }
            if(pkt->stream_index != audio_stream_idx)
                continue;
            // runs only once
            if(pts_diff == AV_NOPTS_VALUE && dts_diff == AV_NOPTS_VALUE) {
                pts_diff = pkt->pts;
                dts_diff = pkt->dts;
            }

            pkt->stream_index = 0; // first and only stream
            pkt->pts -= pts_diff;
            pkt->dts -= dts_diff;
            pkt->pos = -1;
            av_interleaved_write_frame(output, pkt);

            current_frame++;
        }

        avformat_free_context(sheet.avfmtctx);
        sheet.avfmtctx = NULL;

        av_write_trailer(output);
        av_packet_free(&pkt);
        avio_closep(&output->pb);
        avformat_free_context(output);

        free(filepath);
    }



    


    current_frame and next_track_index are calculated from the INDEX lines in the Cue sheet : MM * 60 * 75 + SS * 75 + FF.
Can someone tell me what I'm doing wrong, and how to get the data I need from the input ?

    


  • aarch64 : vp9 : Implement NEON loop filters

    13 novembre 2016, par Martin Storsjö
    aarch64 : vp9 : Implement NEON loop filters

    This work is sponsored by, and copyright, Google.
    

    These are ported from the ARM version ; thanks to the larger
    
amount of registers available, we can do the loop filters with
    
16 pixels at a time. The implementation is fully templated, with
    
a single macro which can generate versions for both 8 and
    
16 pixels wide, for both 4, 8 and 16 pixels loop filters
    
(and the 4/8 mixed versions as well).
    

    For the 8 pixel wide versions, it is pretty close in speed (the
    
v_4_8 and v_8_8 filters are the best examples of this ; the h_4_8
    
and h_8_8 filters seem to get some gain in the load/transpose/store
    
part). For the 16 pixels wide ones, we get a speedup of around
    
1.2-1.4x compared to the 32 bit version.
    

    Examples of runtimes vs the 32 bit version, on a Cortex A53 :
    
                                       ARM AArch64
    
vp9_loop_filter_h_4_8_neon :          144.0   127.2
    
vp9_loop_filter_h_8_8_neon :          207.0   182.5
    
vp9_loop_filter_h_16_8_neon :         415.0   328.7
    
vp9_loop_filter_h_16_16_neon :        672.0   558.6
    
vp9_loop_filter_mix2_h_44_16_neon :   302.0   203.5
    
vp9_loop_filter_mix2_h_48_16_neon :   365.0   305.2
    
vp9_loop_filter_mix2_h_84_16_neon :   365.0   305.2
    
vp9_loop_filter_mix2_h_88_16_neon :   376.0   305.2
    
vp9_loop_filter_mix2_v_44_16_neon :   193.2   128.2
    
vp9_loop_filter_mix2_v_48_16_neon :   246.7   218.4
    
vp9_loop_filter_mix2_v_84_16_neon :   248.0   218.5
    
vp9_loop_filter_mix2_v_88_16_neon :   302.0   218.2
    
vp9_loop_filter_v_4_8_neon :           89.0    88.7
    
vp9_loop_filter_v_8_8_neon :          141.0   137.7
    
vp9_loop_filter_v_16_8_neon :         295.0   272.7
    
vp9_loop_filter_v_16_16_neon :        546.0   453.7
    

    The speedup vs C code in checkasm tests is around 2-7x, which is
    
pretty much the same as for the 32 bit version. Even if these functions
    
are faster than their 32 bit equivalent, the C version that we compare
    
to also became around 1.3-1.7x faster than the C version in 32 bit.
    

    Based on START_TIMER/STOP_TIMER wrapping around a few individual
    
functions, the speedup vs C code is around 4-5x.
    

    Examples of runtimes vs C on a Cortex A57 (for a slightly older version
    
of the patch) :
    
                         A57 gcc-5.3  neon
    
loop_filter_h_4_8_neon :        256.6  93.4
    
loop_filter_h_8_8_neon :        307.3 139.1
    
loop_filter_h_16_8_neon :       340.1 254.1
    
loop_filter_h_16_16_neon :      827.0 407.9
    
loop_filter_mix2_h_44_16_neon : 524.5 155.4
    
loop_filter_mix2_h_48_16_neon : 644.5 173.3
    
loop_filter_mix2_h_84_16_neon : 630.5 222.0
    
loop_filter_mix2_h_88_16_neon : 697.3 222.0
    
loop_filter_mix2_v_44_16_neon : 598.5 100.6
    
loop_filter_mix2_v_48_16_neon : 651.5 127.0
    
loop_filter_mix2_v_84_16_neon : 591.5 167.1
    
loop_filter_mix2_v_88_16_neon : 855.1 166.7
    
loop_filter_v_4_8_neon :        271.7  65.3
    
loop_filter_v_8_8_neon :        312.5 106.9
    
loop_filter_v_16_8_neon :       473.3 206.5
    
loop_filter_v_16_16_neon :      976.1 327.8
    

    The speed-up compared to the C functions is 2.5 to 6 and the cortex-a57
    
is again 30-50% faster than the cortex-a53.
    

    Signed-off-by : Martin Storsjö <martin@martin.st>
    • [DBH] libavcodec/aarch64/Makefile
    • [DBH] libavcodec/aarch64/vp9dsp_init_aarch64.c
    • [DBH] libavcodec/aarch64/vp9lpf_neon.S

  • rtpdec : Don’t pass non-const pointers to fmtp attribute parsing functions

    24 février 2015, par Martin Storsjö
    rtpdec : Don’t pass non-const pointers to fmtp attribute parsing functions

    This makes it clear that the individual parsing functions can’t
    
touch the parsed out value.
    

    Signed-off-by : Martin Storsjö <martin@martin.st>
    • [DBH] libavformat/rtpdec.c
    • [DBH] libavformat/rtpdec.h
    • [DBH] libavformat/rtpdec_amr.c
    • [DBH] libavformat/rtpdec_dv.c
    • [DBH] libavformat/rtpdec_h264.c
    • [DBH] libavformat/rtpdec_hevc.c
    • [DBH] libavformat/rtpdec_ilbc.c
    • [DBH] libavformat/rtpdec_latm.c
    • [DBH] libavformat/rtpdec_mpeg4.c
    • [DBH] libavformat/rtpdec_xiph.c

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