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The Great Big Beautiful Tomorrow
28 octobre 2011, par
Mis à jour : Octobre 2011
Langue : English
Type : Texte
Autres articles (60)
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Gestion des droits de création et d’édition des objets
8 février 2011, parPar défaut, beaucoup de fonctionnalités sont limitées aux administrateurs mais restent configurables indépendamment pour modifier leur statut minimal d’utilisation notamment : la rédaction de contenus sur le site modifiables dans la gestion des templates de formulaires ; l’ajout de notes aux articles ; l’ajout de légendes et d’annotations sur les images ;
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Dépôt de média et thèmes par FTP
31 mai 2013, parL’outil MédiaSPIP traite aussi les média transférés par la voie FTP. Si vous préférez déposer par cette voie, récupérez les identifiants d’accès vers votre site MédiaSPIP et utilisez votre client FTP favori.
Vous trouverez dès le départ les dossiers suivants dans votre espace FTP : config/ : dossier de configuration du site IMG/ : dossier des média déjà traités et en ligne sur le site local/ : répertoire cache du site web themes/ : les thèmes ou les feuilles de style personnalisées tmp/ : dossier de travail (...) -
Keeping control of your media in your hands
13 avril 2011, parThe vocabulary used on this site and around MediaSPIP in general, aims to avoid reference to Web 2.0 and the companies that profit from media-sharing.
While using MediaSPIP, you are invited to avoid using words like "Brand", "Cloud" and "Market".
MediaSPIP is designed to facilitate the sharing of creative media online, while allowing authors to retain complete control of their work.
MediaSPIP aims to be accessible to as many people as possible and development is based on expanding the (...)
Sur d’autres sites (10735)
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Join 8 mono channels into 7.1 audio stream
10 juin 2020, par Rafal BI'm trying to join 8 mono channels into 7.1 channels layout :



ffmpeg -i L.ac3 -i R.ac3 -i C.ac3 -i Sub.ac3 -i BL.ac3 -i BR.ac3 -i SL.ac3 -i SR.ac3 -filter_complex "[0:a][1:a][2:a][3:a][4:a][5:a][6:a][7:a]join=inputs=8:channel_layout=7.1[a]"
-map "[a]" final-output.ac3



but I'm getting :



Stream mapping:
 Stream #0:0 (ac3) -> join:input0
 Stream #1:0 (ac3) -> join:input1
 Stream #2:0 (ac3) -> join:input2
 Stream #3:0 (ac3) -> join:input3
 Stream #4:0 (ac3) -> join:input4
 Stream #5:0 (ac3) -> join:input5
 Stream #6:0 (ac3) -> join:input6
 Stream #7:0 (ac3) -> join:input7
 join -> Stream #0:0 (ac3)
Press [q] to stop, [?] for help
Output #0, ac3, to 'final-output.ac3':
 Metadata:
 encoder : Lavf58.29.100
 Stream #0:0: Audio: ac3, 48000 Hz, **5.1(side)**, fltp, 640 kb/s (default)
 Metadata:
 encoder : Lavc58.54.100 ac3



Why the output file is 5.1(side) ?



Audio
Format : AC-3
Format/Info : Audio Coding 3
Commercial name : Dolby Digital
Duration : 54 min 5 s
Bit rate mode : Constant
Bit rate : 640 kb/s
Channel(s) : 6 channels
Channel layout : L R C LFE Ls Rs
Sampling rate : 48.0 kHz
Frame rate : 31.250 FPS (1536 SPF)
Compression mode : Lossy
Stream size : 248 MiB (100%)
Service kind : Complete Main



I did not found anything that would explain this behavior.
I'm using latest ffmpeg and tried different methods : join, amerge. Always output file is 5.1(side)


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ffmpeg : Converting animated GIF files to video while upscaling produces a file with inaccurate colors
14 juin 2020, par MetamoranI apologize if this is a dumb question, but even after using the search function I have not seen anyone asking about this.



I'm trying to both 
(1) : Convert some low-resolution animated GIF files (pixel art in particular) to video, and
(2) : Upscale them at the same time, using nearest-neighbor to preserve the hard edges.



ffmpeg does everything with no warnings or errors whatsoever, but the end result's colors look off. If I convert without upscaling, the color accuracy is preserved. I have tried both using and NOT using "palettegen", but it does not make a difference. For brevity, I'm only pasting the lines with palettegen in them. The end results are the same either way.



This is what I've been using for upscaling :



ffmpeg -i input.gif -c:v libx264 -b:v 10000K -y -vf "split[s0][s1];[s0]palettegen[p];[s1][p]paletteuse,scale=2*iw:2*ih:flags=neighbor" output.mp4



This is what I used for testing conversion (with no upscaling) :



ffmpeg -i input.gif -c:v libx264 -b:v 10000K -y -vf "split[s0][s1];[s0]palettegen[p];[s1][p]paletteuse" output.mp4



Here's the input file :






Here's a screenshot of how the final video looks if I don't upscale (colors look exactly like in the input file) :



Screenshot - Final - No Upscaling



And here's the result if I upscale (2x Nearest-Neighbor upscaling, with the screenshot downsized 50% to make comparison easier. Colors were not altered during the process.) :



Screenshot - Final - 2x Upscaling (Nearest-Neighbor) [Downsized]



Folder with all relevant files :
Google Drive



Is there something I'm missing ? Or is there some sort of technical limitation, a step that will alter the colors of the video no matter what I try ? I'm not technically inclined, I'd like to know if that is the case. Thank you for your time.


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avformat/dhav : fix backward scanning for get_duration and optimize seeking
21 mars, par Justin Rugglesavformat/dhav : fix backward scanning for get_duration and optimize seeking
The backwards scanning done for incomplete final packets should not
assume a specific alignment at the end of the file. Truncated files
result in hundreds of thousands of seeks if the final packet does not
fall on a specific byte boundary, which can be extremely slow.
For example, with HTTP, each backwards seek results in a separate
HTTP request.This changes the scanning to check for the end tag 1 byte at a time
and buffers the last 1 MiB to avoid additional seek operations.Co-authored-by : Derek Buitenhuis <derek.buitenhuis@gmail.com>
Signed-off-by : Justin Ruggles <justinr@vimeo.com>
Signed-off-by : Derek Buitenhuis <derek.buitenhuis@gmail.com>
Syndiquer tout le site
![Screenshot - Final - 2x Upscaling (Nearest-Neighbor) [Downsized]](https://i.stack.imgur.com/FHAO8.png){kind=link}