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Head down (wav version)
26 septembre 2011, par
Mis à jour : Avril 2013
Langue : English
Type : Audio
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Echoplex (wav version)
26 septembre 2011, par
Mis à jour : Avril 2013
Langue : English
Type : Audio
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Discipline (wav version)
26 septembre 2011, par
Mis à jour : Avril 2013
Langue : English
Type : Audio
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Letting you (wav version)
26 septembre 2011, par
Mis à jour : Avril 2013
Langue : English
Type : Audio
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1 000 000 (wav version)
26 septembre 2011, par
Mis à jour : Avril 2013
Langue : English
Type : Audio
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999 999 (wav version)
26 septembre 2011, par
Mis à jour : Avril 2013
Langue : English
Type : Audio
Autres articles (104)
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Personnaliser les catégories
21 juin 2013, parFormulaire de création d’une catégorie
Pour ceux qui connaissent bien SPIP, une catégorie peut être assimilée à une rubrique.
Dans le cas d’un document de type catégorie, les champs proposés par défaut sont : Texte
On peut modifier ce formulaire dans la partie :
Administration > Configuration des masques de formulaire.
Dans le cas d’un document de type média, les champs non affichés par défaut sont : Descriptif rapide
Par ailleurs, c’est dans cette partie configuration qu’on peut indiquer le (...) -
Librairies et binaires spécifiques au traitement vidéo et sonore
31 janvier 2010, parLes logiciels et librairies suivantes sont utilisées par SPIPmotion d’une manière ou d’une autre.
Binaires obligatoires FFMpeg : encodeur principal, permet de transcoder presque tous les types de fichiers vidéo et sonores dans les formats lisibles sur Internet. CF ce tutoriel pour son installation ; Oggz-tools : outils d’inspection de fichiers ogg ; Mediainfo : récupération d’informations depuis la plupart des formats vidéos et sonores ;
Binaires complémentaires et facultatifs flvtool2 : (...) -
Support audio et vidéo HTML5
10 avril 2011MediaSPIP utilise les balises HTML5 video et audio pour la lecture de documents multimedia en profitant des dernières innovations du W3C supportées par les navigateurs modernes.
Pour les navigateurs plus anciens, le lecteur flash Flowplayer est utilisé.
Le lecteur HTML5 utilisé a été spécifiquement créé pour MediaSPIP : il est complètement modifiable graphiquement pour correspondre à un thème choisi.
Ces technologies permettent de distribuer vidéo et son à la fois sur des ordinateurs conventionnels (...)
Sur d’autres sites (12667)
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print list of video files containing "x" string in meatadata - Windows 10 [closed]
30 mai 2020, par Harry SandersonI have a large collection of video files which have the contents of the video listed in one of the metadata fields. for example one video might have "trees, birds, cars", another might have "birds, building, person".



I'm looking for a command to print the filenames of all the videos that contain a specific string ie "birds" to a .txt file where the names would be separated by a comma so, "video1.mov, video2.mov" and so on.



I know very little about this sort of problem, is it the sort of thing that can be done directly in windows cmd line, or would it require a python script ?



Any help really appreciated ! :)


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Some H264-mp4 videos can't be loaded by any non-Chromium based web browser
3 mai 2020, par LaizrodI regularly use ffmpeg to encode some videos, blu-ray etc in mp4 files (encoded in H264 and AAC) in order to be played on web browsers.
Chromium based browsers such as Google Chrome or the new Microsoft Edge can play all of my files flawlessly.
But today I noticed that some video files couldn't be loaded by some web browsers. It looks like they can't be loaded by any non-Chromium based web browser. (Safari, Firefox etc..)



So I decided to check out and compare the specs of files that work with any web browser, and files that doesn't work with non-Chromium based browsers.



There's what I got :



- 

- Playable by any web browser :





General
Complete name : /storage/100.mp4
Format : MPEG-4
Format profile : Base Media / Version 2
Codec ID : mp42 (isom/iso2/avc1/mp41)
File size : 624 MiB
Duration : 23 min 54 s
Overall bit rate : 3 648 kb/s
Encoded date : UTC 2019-10-02 22:15:27
Tagged date : UTC 2019-10-02 22:15:27
Writing application : HandBrake 1.2.2 2019022300

Video
ID : 1
Format : AVC
Format/Info : Advanced Video Codec
Format profile : High@L4
Format settings : CABAC / 1 Ref Frames
Format settings, CABAC : Yes
Format settings, ReFrames : 1 frame
Format settings, GOP : M=3, N=24
Codec ID : avc1
Codec ID/Info : Advanced Video Coding
Duration : 23 min 54 s
Bit rate : 3 481 kb/s
Width : 1 920 pixels
Height : 1 080 pixels
Display aspect ratio : 16:9
Frame rate mode : Variable
Frame rate : 23.976 (24000/1001) FPS
Minimum frame rate : 23.974 FPS
Maximum frame rate : 23.981 FPS
Color space : YUV
Chroma subsampling : 4:2:0
Bit depth : 8 bits
Scan type : Progressive
Bits/(Pixel*Frame) : 0.070
Stream size : 595 MiB (95%)
Encoded date : UTC 2019-10-02 22:15:27
Tagged date : UTC 2019-10-02 22:15:27
Color range : Limited
Color primaries : BT.709
Transfer characteristics : BT.709
Matrix coefficients : BT.709
Codec configuration box : avcC

Audio
ID : 2
Format : AAC LC
Format/Info : Advanced Audio Codec Low Complexity
Codec ID : mp4a-40-2
Duration : 23 min 54 s
Bit rate mode : Constant
Bit rate : 160 kb/s
Channel(s) : 2 channels
Channel layout : L R
Sampling rate : 44.1 kHz
Frame rate : 43.066 FPS (1024 SPF)
Compression mode : Lossy
Stream size : 27.4 MiB (4%)
Title : Stereo
Language : Japanese
Default : Yes
Alternate group : 1
Encoded date : UTC 2019-10-02 22:15:27
Tagged date : UTC 2019-10-02 22:15:27



- 

- Unplayable by non-chromium based web browsers :





General
Complete name : /storage/DL/test.mp4
Format : MPEG-4
Format profile : Base Media
Codec ID : isom (isom/iso2/avc1/mp41)
File size : 329 MiB
Duration : 23 min 52 s
Overall bit rate : 1 926 kb/s
Writing application : Lavf58.20.100

Video
ID : 1
Format : AVC
Format/Info : Advanced Video Codec
Format profile : High@L4
Format settings : CABAC / 4 Ref Frames
Format settings, CABAC : Yes
Format settings, ReFrames : 4 frames
Codec ID : avc1
Codec ID/Info : Advanced Video Coding
Duration : 23 min 52 s
Bit rate : 1 792 kb/s
Width : 1 920 pixels
Height : 1 080 pixels
Display aspect ratio : 16:9
Frame rate mode : Constant
Frame rate : 23.976 (24000/1001) FPS
Color space : YUV
Chroma subsampling : 4:2:0
Bit depth : 8 bits
Scan type : Progressive
Bits/(Pixel*Frame) : 0.036
Stream size : 306 MiB (93%)
Writing library : x264 core 155 r2917 0a84d98
Encoding settings : cabac=1 / ref=1 / deblock=1:0:0 / analyse=0x3:0x113 / me=hex / subme=2 / psy=1 / psy_rd=1.00:0.00 / mixed_ref=0 / me_range=16 / chroma_me=1 / trellis=0 / 8x8dct=1 / cqm=0 / deadzone=21,11 / fast_pskip=1 / chroma_qp_offset=0 / threads=34 / lookahead_threads=8 / sliced_threads=0 / nr=0 / decimate=1 / interlaced=0 / bluray_compat=0 / constrained_intra=0 / bframes=3 / b_pyramid=2 / b_adapt=1 / b_bias=0 / direct=1 / weightb=1 / open_gop=0 / weightp=1 / keyint=250 / keyint_min=23 / scenecut=40 / intra_refresh=0 / rc_lookahead=10 / rc=crf / mbtree=1 / crf=21.0 / qcomp=0.60 / qpmin=0 / qpmax=69 / qpstep=4 / ip_ratio=1.40 / aq=1:1.00
Language : Japanese
Codec configuration box : avcC

Audio
ID : 2
Format : AAC LC
Format/Info : Advanced Audio Codec Low Complexity
Codec ID : mp4a-40-2
Duration : 23 min 52 s
Bit rate mode : Constant
Bit rate : 128 kb/s
Channel(s) : 2 channels
Channel layout : L R
Sampling rate : 48.0 kHz
Frame rate : 46.875 FPS (1024 SPF)
Compression mode : Lossy
Stream size : 21.9 MiB (7%)
Language : Japanese
Default : Yes
Alternate group : 1



My knowledge is limited and I'm unable to understand why and which differences are causing my issue.
Can someone identify the problem and help me fix it with ffmpeg ?



Thank you


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FFMPEG - How to pipe RMS_level and pts_time metadata without generating unwanted metadata
6 février 2020, par Tovi NewmanI am trying to find the loudest (highest rms_level) moment in an audio file, but I need to pipe the metadata rather than write to a file.
I converted the answer found here : [https://superuser.com/questions/1183663/determining-audio-level-peaks-with-ffmpeg][1]
By removing the write to file command and adding a pipe.
Here’s what I’ve got.ffmpeg -i loudSoft.mp3 -af astats=metadata=1:reset=1,ametadata=print:key=lavfi.astats.Overall.RMS_level -f null - 2> result.txtThe only problem is, now I’ve got a lot of unwanted metadata before and after the RMS_level and pts_time data as well as
[Parsed_ametadata_1 @ 0x7f9d42c37500]being printed on each line. None of that was being written when I was writing to a file instead of piping. (all I need is the time and the rms.)Here is an abridged version of what I get when I write to file :
frame:0 pts:0 pts_time:0
lavfi.astats.Overall.RMS_level=-inf
frame:1 pts:47 pts_time:0.00106576
lavfi.astats.Overall.RMS_level=-165.163347
frame:2 pts:1199 pts_time:0.0271882
lavfi.astats.Overall.RMS_level=-99.736394
frame:3 pts:2351 pts_time:0.0533107
lavfi.astats.Overall.RMS_level=-88.112282
frame:4 pts:3503 pts_time:0.0794331
lavfi.astats.Overall.RMS_level=-86.554314
frame:5 pts:4655 pts_time:0.105556
lavfi.astats.Overall.RMS_level=-82.977501
frame:6 pts:5807 pts_time:0.131678
lavfi.astats.Overall.RMS_level=-79.698739
frame:7 pts:6959 pts_time:0.1578
lavfi.astats.Overall.RMS_level=-76.629393
frame:8 pts:8111 pts_time:0.183923
lavfi.astats.Overall.RMS_level=-71.581211
frame:9 pts:9263 pts_time:0.210045
lavfi.astats.Overall.RMS_level=-75.038503
frame:10 pts:10415 pts_time:0.236168And here is what I’m looking at :
ffmpeg version 4.2.2 Copyright (c) 2000-2019 the FFmpeg developers
built with Apple clang version 11.0.0 (clang-1100.0.33.16)
configuration: --prefix=/usr/local/Cellar/ffmpeg/4.2.2_1 --enable-shared --enable-pthreads --enable-version3 --enable-avresample --cc=clang --host-cflags='-I/Library/Java/JavaVirtualMachines/adoptopenjdk-13.0.1.jdk/Contents/Home/include -I/Library/Java/JavaVirtualMachines/adoptopenjdk-13.0.1.jdk/Contents/Home/include/darwin -fno-stack-check' --host-ldflags= --enable-ffplay --enable-gnutls --enable-gpl --enable-libaom --enable-libbluray --enable-libmp3lame --enable-libopus --enable-librubberband --enable-libsnappy --enable-libtesseract --enable-libtheora --enable-libvidstab --enable-libvorbis --enable-libvpx --enable-libwebp --enable-libx264 --enable-libx265 --enable-libxvid --enable-lzma --enable-libfontconfig --enable-libfreetype --enable-frei0r --enable-libass --enable-libopencore-amrnb --enable-libopencore-amrwb --enable-libopenjpeg --enable-librtmp --enable-libspeex --enable-libsoxr --enable-videotoolbox --disable-libjack --disable-indev=jack
libavutil 56. 31.100 / 56. 31.100
libavcodec 58. 54.100 / 58. 54.100
libavformat 58. 29.100 / 58. 29.100
libavdevice 58. 8.100 / 58. 8.100
libavfilter 7. 57.100 / 7. 57.100
libavresample 4. 0. 0 / 4. 0. 0
libswscale 5. 5.100 / 5. 5.100
libswresample 3. 5.100 / 3. 5.100
libpostproc 55. 5.100 / 55. 5.100
Input #0, mp3, from 'loudSoft2.mp3':
Metadata:
encoder : Lavf58.29.100
Duration: 00:00:09.85, start: 0.025057, bitrate: 128 kb/s
Stream #0:0: Audio: mp3, 44100 Hz, stereo, fltp, 128 kb/s
Metadata:
encoder : Lavc58.54
Stream mapping:
Stream #0:0 -> #0:0 (mp3 (mp3float) -> pcm_s16le (native))
Press [q] to stop, [?] for help
[Parsed_ametadata_1 @ 0x7f9d42c37500] frame:0 pts:0 pts_time:0
[Parsed_ametadata_1 @ 0x7f9d42c37500] lavfi.astats.Overall.RMS_level=-inf
Output #0, null, to 'pipe:':
Metadata:
encoder : Lavf58.29.100
Stream #0:0: Audio: pcm_s16le, 44100 Hz, stereo, s16, 1411 kb/s
Metadata:
encoder : Lavc58.54.100 pcm_s16le
[Parsed_ametadata_1 @ 0x7f9d42c37500] frame:1 pts:47 pts_time:0.00106576
[Parsed_ametadata_1 @ 0x7f9d42c37500] lavfi.astats.Overall.RMS_level=-165.163347
[Parsed_ametadata_1 @ 0x7f9d42c37500] frame:2 pts:1199 pts_time:0.0271882
[Parsed_ametadata_1 @ 0x7f9d42c37500] lavfi.astats.Overall.RMS_level=-99.736394
[Parsed_ametadata_1 @ 0x7f9d42c37500] frame:3 pts:2351 pts_time:0.0533107
*** MIDDLE OMITTED FOR BREVITY ***
[Parsed_ametadata_1 @ 0x7f9d42c37500] lavfi.astats.Overall.RMS_level=-88.532185
[Parsed_ametadata_1 @ 0x7f9d42c37500] frame:375 pts:430895 pts_time:9.77086
[Parsed_ametadata_1 @ 0x7f9d42c37500] lavfi.astats.Overall.RMS_level=-88.594276
[Parsed_ametadata_1 @ 0x7f9d42c37500] frame:376 pts:432047 pts_time:9.79698
[Parsed_ametadata_1 @ 0x7f9d42c37500] lavfi.astats.Overall.RMS_level=-88.654138
size=N/A time=00:00:09.82 bitrate=N/A speed=82.6x
video:0kB audio:1692kB subtitle:0kB other streams:0kB global headers:0kB muxing overhead: unknown
[Parsed_astats_0 @ 0x7f9d42c37280] Channel: 1
[Parsed_astats_0 @ 0x7f9d42c37280] DC offset: 0.000001
[Parsed_astats_0 @ 0x7f9d42c37280] Min level: -0.000106
[Parsed_astats_0 @ 0x7f9d42c37280] Max level: 0.000115
[Parsed_astats_0 @ 0x7f9d42c37280] Min difference: 0.000000
[Parsed_astats_0 @ 0x7f9d42c37280] Max difference: 0.000077
[Parsed_astats_0 @ 0x7f9d42c37280] Mean difference: 0.000017
[Parsed_astats_0 @ 0x7f9d42c37280] RMS difference: 0.000022
[Parsed_astats_0 @ 0x7f9d42c37280] Peak level dB: -78.752617
[Parsed_astats_0 @ 0x7f9d42c37280] RMS level dB: -88.654138
[Parsed_astats_0 @ 0x7f9d42c37280] RMS peak dB: -88.654138
[Parsed_astats_0 @ 0x7f9d42c37280] RMS trough dB: -88.654138
[Parsed_astats_0 @ 0x7f9d42c37280] Crest factor: 3.126627
[Parsed_astats_0 @ 0x7f9d42c37280] Flat factor: 0.000000
[Parsed_astats_0 @ 0x7f9d42c37280] Peak count: 2
[Parsed_astats_0 @ 0x7f9d42c37280] Bit depth: 32/32
[Parsed_astats_0 @ 0x7f9d42c37280] Dynamic range: 76.274252
[Parsed_astats_0 @ 0x7f9d42c37280] Zero crossings: 246
[Parsed_astats_0 @ 0x7f9d42c37280] Zero crossings rate: 0.222624
[Parsed_astats_0 @ 0x7f9d42c37280] Number of NaNs: 0
[Parsed_astats_0 @ 0x7f9d42c37280] Number of Infs: 0
[Parsed_astats_0 @ 0x7f9d42c37280] Number of denormals: 0
[Parsed_astats_0 @ 0x7f9d42c37280] Channel: 2
[Parsed_astats_0 @ 0x7f9d42c37280] DC offset: 0.000001
[Parsed_astats_0 @ 0x7f9d42c37280] Min level: -0.000106
[Parsed_astats_0 @ 0x7f9d42c37280] Max level: 0.000115
[Parsed_astats_0 @ 0x7f9d42c37280] Min difference: 0.000000
[Parsed_astats_0 @ 0x7f9d42c37280] Max difference: 0.000077
[Parsed_astats_0 @ 0x7f9d42c37280] Mean difference: 0.000017
[Parsed_astats_0 @ 0x7f9d42c37280] RMS difference: 0.000022
[Parsed_astats_0 @ 0x7f9d42c37280] Peak level dB: -78.752617
[Parsed_astats_0 @ 0x7f9d42c37280] RMS level dB: -88.654138
[Parsed_astats_0 @ 0x7f9d42c37280] RMS peak dB: -88.654138
[Parsed_astats_0 @ 0x7f9d42c37280] RMS trough dB: -88.654138
[Parsed_astats_0 @ 0x7f9d42c37280] Crest factor: 3.126627
[Parsed_astats_0 @ 0x7f9d42c37280] Flat factor: 0.000000
[Parsed_astats_0 @ 0x7f9d42c37280] Peak count: 2
[Parsed_astats_0 @ 0x7f9d42c37280] Bit depth: 32/32
[Parsed_astats_0 @ 0x7f9d42c37280] Dynamic range: 76.274252
[Parsed_astats_0 @ 0x7f9d42c37280] Zero crossings: 246
[Parsed_astats_0 @ 0x7f9d42c37280] Zero crossings rate: 0.222624
[Parsed_astats_0 @ 0x7f9d42c37280] Number of NaNs: 0
[Parsed_astats_0 @ 0x7f9d42c37280] Number of Infs: 0
[Parsed_astats_0 @ 0x7f9d42c37280] Number of denormals: 0
[Parsed_astats_0 @ 0x7f9d42c37280] Overall
[Parsed_astats_0 @ 0x7f9d42c37280] DC offset: 0.000001
[Parsed_astats_0 @ 0x7f9d42c37280] Min level: -0.000106
[Parsed_astats_0 @ 0x7f9d42c37280] Max level: 0.000115
[Parsed_astats_0 @ 0x7f9d42c37280] Min difference: 0.000000
[Parsed_astats_0 @ 0x7f9d42c37280] Max difference: 0.000077
[Parsed_astats_0 @ 0x7f9d42c37280] Mean difference: 0.000017
[Parsed_astats_0 @ 0x7f9d42c37280] RMS difference: 0.000022
[Parsed_astats_0 @ 0x7f9d42c37280] Peak level dB: -78.752617
[Parsed_astats_0 @ 0x7f9d42c37280] RMS level dB: -88.654138
[Parsed_astats_0 @ 0x7f9d42c37280] RMS peak dB: -88.654138
[Parsed_astats_0 @ 0x7f9d42c37280] RMS trough dB: -88.654138
[Parsed_astats_0 @ 0x7f9d42c37280] Flat factor: 0.000000
[Parsed_astats_0 @ 0x7f9d42c37280] Peak count: 2.000000
[Parsed_astats_0 @ 0x7f9d42c37280] Bit depth: 32/32
[Parsed_astats_0 @ 0x7f9d42c37280] Number of samples: 1105
[Parsed_astats_0 @ 0x7f9d42c37280] Number of NaNs: 0.000000
[Parsed_astats_0 @ 0x7f9d42c37280] Number of Infs: 0.000000
[Parsed_astats_0 @ 0x7f9d42c37280] Number of denormals: 0.000000
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