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La conservation du net art au musée. Les stratégies à l’œuvre
26 mai 2011
Mis à jour : Juillet 2013
Langue : français
Type : Texte
Autres articles (54)
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Les tâches Cron régulières de la ferme
1er décembre 2010, parLa gestion de la ferme passe par l’exécution à intervalle régulier de plusieurs tâches répétitives dites Cron.
Le super Cron (gestion_mutu_super_cron)
Cette tâche, planifiée chaque minute, a pour simple effet d’appeler le Cron de l’ensemble des instances de la mutualisation régulièrement. Couplée avec un Cron système sur le site central de la mutualisation, cela permet de simplement générer des visites régulières sur les différents sites et éviter que les tâches des sites peu visités soient trop (...) -
Les statuts des instances de mutualisation
13 mars 2010, parPour des raisons de compatibilité générale du plugin de gestion de mutualisations avec les fonctions originales de SPIP, les statuts des instances sont les mêmes que pour tout autre objets (articles...), seuls leurs noms dans l’interface change quelque peu.
Les différents statuts possibles sont : prepa (demandé) qui correspond à une instance demandée par un utilisateur. Si le site a déjà été créé par le passé, il est passé en mode désactivé. publie (validé) qui correspond à une instance validée par un (...) -
Creating farms of unique websites
13 avril 2011, parMediaSPIP platforms can be installed as a farm, with a single "core" hosted on a dedicated server and used by multiple websites.
This allows (among other things) : implementation costs to be shared between several different projects / individuals rapid deployment of multiple unique sites creation of groups of like-minded sites, making it possible to browse media in a more controlled and selective environment than the major "open" (...)
Sur d’autres sites (7826)
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FATE Ends the Mac
8 juin 2010, par Multimedia Mike — FATE ServerDid you know Mac OS X can even blue-screen ? To be fair, it doesn’t actually present a blue screen. But when Mac OS X encounters a kernel panic, it looks like this :
True to form, Mac just has to be prettier and glossier than other operating systems, even in the area of system crashes.
The reason I bring this up is that the FATE system is bringing down my Mac. My Mac Mini is reliably dying every single time I try to execute my FATE client Python script. Maybe the weather is getting too warm.
Update, 2010-6-8 : Following advice in the comments, I tried to run Memtest86 on the Mac Mini in question. I couldn’t get the machine to boot the CD I made. As an alternative, I turned the machine off and let it rest for a night. In the morning, I turned it on and ran the FATE client script. It’s working for now.
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Compile vlc-android on macos Sierra, many errors
12 février 2017, par appworksThis is the error message capture,Under MAC mini(macOS Sierra 10.12.3) :
I’m trying to compile VLC-android player using MAC mini, the error message is below :{standard input}: Assembler messages:
{standard input}:146: Error: unknown register alias 'GP'
clang38: error: assembler command failed with exit code 1 (use -v to see invocation)
make[1]: *** [libavcodec/arm/ac3dsp_armv6.o] Error 1
make[1]: *** Waiting for unfinished jobs....
{standard input}: Assembler messages:
{standard input}:446: Error: unknown register alias 'POUT'
{standard input}:448: Error: unknown register alias 'PIN'
{standard input}:450: Error: unknown register alias 'PCOEF'
{standard input}:452: Error: unknown register alias 'OLDFPSCR'What am I doing wrong ?
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audio convert to mp3,pcm and vox using ffmpeg
8 juillet 2014, par user3789242Please can someone help me with the code for ffmpeg.
I have to useffmpegto convert a recorder voice (using HTML5) intomp3,pcmorvoxdepending on the user’s selection.
I don’t know how to write the code forffmpegif some one can help me with the code or libraries.
Thank you in advance.Here is my code for recording the voice with a visualizer :
// variables
var leftchannel = [];
var rightchannel = [];
var recorder = null;
var recording = false;
var recordingLength = 0;
var volume = null;
var audioInput = null;
var sampleRate = 44100;
var audioContext = null;
var context = null;
var outputString;
if (!navigator.getUserMedia)
navigator.getUserMedia = navigator.getUserMedia ||
navigator.webkitGetUserMedia ||
navigator.mozGetUserMedia ||
navigator.msGetUserMedia;
if (navigator.getUserMedia){
navigator.getUserMedia({audio:true}, success, function(e) {
alert('Error capturing audio.');
});
} else alert('getUserMedia not supported in this browser.');
function getVal(value)
{
// if R is pressed, we start recording
if ( value == "record"){
recording = true;
// reset the buffers for the new recording
leftchannel.length = rightchannel.length = 0;
recordingLength = 0;
document.getElementById('output').innerHTML="Recording now...";
// if S is pressed, we stop the recording and package the WAV file
} else if ( value == "stop" ){
// we stop recording
recording = false;
document.getElementById('output').innerHTML="Building wav file...";
// we flat the left and right channels down
var leftBuffer = mergeBuffers ( leftchannel, recordingLength );
var rightBuffer = mergeBuffers ( rightchannel, recordingLength );
// we interleave both channels together
var interleaved = interleave ( leftBuffer, rightBuffer );
var buffer = new ArrayBuffer(44 + interleaved.length * 2);
var view = new DataView(buffer);
// RIFF chunk descriptor
writeUTFBytes(view, 0, 'RIFF');
view.setUint32(4, 44 + interleaved.length * 2, true);
writeUTFBytes(view, 8, 'WAVE');
// FMT sub-chunk
writeUTFBytes(view, 12, 'fmt ');
view.setUint32(16, 16, true);
view.setUint16(20, 1, true);
// stereo (2 channels)
view.setUint16(22, 2, true);
view.setUint32(24, sampleRate, true);
view.setUint32(28, sampleRate * 4, true);
view.setUint16(32, 4, true);
view.setUint16(34, 16, true);
// data sub-chunk
writeUTFBytes(view, 36, 'data');
view.setUint32(40, interleaved.length * 2, true);
var lng = interleaved.length;
var index = 44;
var volume = 1;
for (var i = 0; i < lng; i++){
view.setInt16(index, interleaved[i] * (0x7FFF * volume), true);
index += 2;
}
var blob = new Blob ( [ view ], { type : 'audio/wav' } );
// let's save it locally
document.getElementById('output').innerHTML='Handing off the file now...';
var url = (window.URL || window.webkitURL).createObjectURL(blob);
var li = document.createElement('li');
var au = document.createElement('audio');
var hf = document.createElement('a');
au.controls = true;
au.src = url;
hf.href = url;
hf.download = 'audio_recording_' + new Date().getTime() + '.wav';
hf.innerHTML = hf.download;
li.appendChild(au);
li.appendChild(hf);
recordingList.appendChild(li);
}
}
function success(e){
audioContext = window.AudioContext || window.webkitAudioContext;
context = new audioContext();
volume = context.createGain();
// creates an audio node from the microphone incoming stream(source)
source = context.createMediaStreamSource(e);
// connect the stream(source) to the gain node
source.connect(volume);
var bufferSize = 2048;
recorder = context.createScriptProcessor(bufferSize, 2, 2);
//node for the visualizer
analyser = context.createAnalyser();
analyser.smoothingTimeConstant = 0.3;
analyser.fftSize = 512;
splitter = context.createChannelSplitter();
//when recording happens
recorder.onaudioprocess = function(e){
if (!recording) return;
var left = e.inputBuffer.getChannelData (0);
var right = e.inputBuffer.getChannelData (1);
leftchannel.push (new Float32Array (left));
rightchannel.push (new Float32Array (right));
recordingLength += bufferSize;
// get the average for the first channel
var array = new Uint8Array(analyser.frequencyBinCount);
analyser.getByteFrequencyData(array);
var c=document.getElementById("myCanvas");
var ctx = c.getContext("2d");
// clear the current state
ctx.clearRect(0, 0, 1000, 325);
var gradient = ctx.createLinearGradient(0,0,0,300);
gradient.addColorStop(1,'#000000');
gradient.addColorStop(0.75,'#ff0000');
gradient.addColorStop(0.25,'#ffff00');
gradient.addColorStop(0,'#ffffff');
// set the fill style
ctx.fillStyle=gradient;
drawSpectrum(array);
function drawSpectrum(array) {
for ( var i = 0; i < (array.length); i++ ){
var value = array[i];
ctx.fillRect(i*5,325-value,3,325);
}
}
}
function getAverageVolume(array) {
var values = 0;
var average;
var length = array.length;
// get all the frequency amplitudes
for (var i = 0; i < length; i++) {
values += array[i];
}
average = values / length;
return average;
}
// we connect the recorder(node to destination(speakers))
volume.connect(splitter);
splitter.connect(analyser, 0, 0);
analyser.connect(recorder);
recorder.connect(context.destination);
}
function mergeBuffers(channelBuffer, recordingLength){
var result = new Float32Array(recordingLength);
var offset = 0;
var lng = channelBuffer.length;
for (var i = 0; i < lng; i++){
var buffer = channelBuffer[i];
result.set(buffer, offset);
offset += buffer.length;
}
return result;
}
function interleave(leftChannel, rightChannel){
var length = leftChannel.length + rightChannel.length;
var result = new Float32Array(length);
var inputIndex = 0;
for (var index = 0; index < length; ){
result[index++] = leftChannel[inputIndex];
result[index++] = rightChannel[inputIndex];
inputIndex++;
}
return result;
}
function writeUTFBytes(view, offset, string){
var lng = string.length;
for (var i = 0; i < lng; i++){
view.setUint8(offset + i, string.charCodeAt(i));
}
}
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