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update model
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// This file copies and modifies code
// from https://mdn.github.io/web-dictaphone/scripts/app.js
// and https://gist.github.com/meziantou/edb7217fddfbb70e899e
const startBtn = document.getElementById('startBtn');
const stopBtn = document.getElementById('stopBtn');
const clearBtn = document.getElementById('clearBtn');
const hint = document.getElementById('hint');
const soundClips = document.getElementById('sound-clips');
let textArea = document.getElementById('results');
let lastResult = '';
let resultList = [];
clearBtn.onclick = function() {
resultList = [];
textArea.value = getDisplayResult();
textArea.scrollTop = textArea.scrollHeight; // auto scroll
};
function getDisplayResult() {
let i = 0;
let ans = '';
for (let s in resultList) {
if (resultList[s] == '') {
continue;
}
ans += '' + i + ': ' + resultList[s] + '\n';
i += 1;
}
if (lastResult.length > 0) {
ans += '' + i + ': ' + lastResult + '\n';
}
return ans;
}
Module = {};
Module.onRuntimeInitialized = function() {
console.log('inited!');
hint.innerText = 'Model loaded! Please click start';
startBtn.disabled = false;
recognizer = createOnlineRecognizer(Module);
console.log('recognizer is created!', recognizer);
};
let audioCtx;
let mediaStream;
let expectedSampleRate = 16000;
let recordSampleRate; // the sampleRate of the microphone
let recorder = null; // the microphone
let leftchannel = []; // TODO: Use a single channel
let recordingLength = 0; // number of samples so far
let recognizer = null;
let recognizer_stream = null;
if (navigator.mediaDevices.getUserMedia) {
console.log('getUserMedia supported.');
// see https://w3c.github.io/mediacapture-main/#dom-mediadevices-getusermedia
const constraints = {audio: true};
let onSuccess = function(stream) {
if (!audioCtx) {
audioCtx = new AudioContext({sampleRate: 16000});
}
console.log(audioCtx);
recordSampleRate = audioCtx.sampleRate;
console.log('sample rate ' + recordSampleRate);
// creates an audio node from the microphone incoming stream
mediaStream = audioCtx.createMediaStreamSource(stream);
console.log('media stream', mediaStream);
// https://developer.mozilla.org/en-US/docs/Web/API/AudioContext/createScriptProcessor
// bufferSize: the onaudioprocess event is called when the buffer is full
var bufferSize = 4096;
var numberOfInputChannels = 1;
var numberOfOutputChannels = 2;
if (audioCtx.createScriptProcessor) {
recorder = audioCtx.createScriptProcessor(
bufferSize, numberOfInputChannels, numberOfOutputChannels);
} else {
recorder = audioCtx.createJavaScriptNode(
bufferSize, numberOfInputChannels, numberOfOutputChannels);
}
console.log('recorder', recorder);
recorder.onaudioprocess = function(e) {
let samples = new Float32Array(e.inputBuffer.getChannelData(0))
samples = downsampleBuffer(samples, expectedSampleRate);
if (recognizer_stream == null) {
recognizer_stream = recognizer.createStream();
}
recognizer_stream.acceptWaveform(expectedSampleRate, samples);
while (recognizer.isReady(recognizer_stream)) {
recognizer.decode(recognizer_stream);
}
let isEndpoint = recognizer.isEndpoint(recognizer_stream);
let result = recognizer.getResult(recognizer_stream).text;
if (recognizer.config.modelConfig.paraformer.encoder != '') {
let tailPaddings = new Float32Array(expectedSampleRate);
recognizer_stream.acceptWaveform(expectedSampleRate, tailPaddings);
while (recognizer.isReady(recognizer_stream)) {
recognizer.decode(recognizer_stream);
}
result = recognizer.getResult(recognizer_stream).text;
}
if (result.length > 0 && lastResult != result) {
lastResult = result;
}
if (isEndpoint) {
if (lastResult.length > 0) {
resultList.push(lastResult);
lastResult = '';
}
recognizer.reset(recognizer_stream);
}
textArea.value = getDisplayResult();
textArea.scrollTop = textArea.scrollHeight; // auto scroll
let buf = new Int16Array(samples.length);
for (var i = 0; i < samples.length; ++i) {
let s = samples[i];
if (s >= 1)
s = 1;
else if (s <= -1)
s = -1;
samples[i] = s;
buf[i] = s * 32767;
}
leftchannel.push(buf);
recordingLength += bufferSize;
};
startBtn.onclick = function() {
mediaStream.connect(recorder);
recorder.connect(audioCtx.destination);
console.log('recorder started');
stopBtn.disabled = false;
startBtn.disabled = true;
};
stopBtn.onclick = function() {
console.log('recorder stopped');
// stopBtn recording
recorder.disconnect(audioCtx.destination);
mediaStream.disconnect(recorder);
startBtn.style.background = '';
startBtn.style.color = '';
// mediaRecorder.requestData();
stopBtn.disabled = true;
startBtn.disabled = false;
var clipName = new Date().toISOString();
const clipContainer = document.createElement('article');
const clipLabel = document.createElement('p');
const audio = document.createElement('audio');
const deleteButton = document.createElement('button');
clipContainer.classList.add('clip');
audio.setAttribute('controls', '');
deleteButton.textContent = 'Delete';
deleteButton.className = 'delete';
clipLabel.textContent = clipName;
clipContainer.appendChild(audio);
clipContainer.appendChild(clipLabel);
clipContainer.appendChild(deleteButton);
soundClips.appendChild(clipContainer);
audio.controls = true;
let samples = flatten(leftchannel);
const blob = toWav(samples);
leftchannel = [];
const audioURL = window.URL.createObjectURL(blob);
audio.src = audioURL;
console.log('recorder stopped');
deleteButton.onclick = function(e) {
let evtTgt = e.target;
evtTgt.parentNode.parentNode.removeChild(evtTgt.parentNode);
};
clipLabel.onclick = function() {
const existingName = clipLabel.textContent;
const newClipName = prompt('Enter a new name for your sound clip?');
if (newClipName === null) {
clipLabel.textContent = existingName;
} else {
clipLabel.textContent = newClipName;
}
};
};
};
let onError = function(err) {
console.log('The following error occured: ' + err);
};
navigator.mediaDevices.getUserMedia(constraints).then(onSuccess, onError);
} else {
console.log('getUserMedia not supported on your browser!');
alert('getUserMedia not supported on your browser!');
}
// this function is copied/modified from
// https://gist.github.com/meziantou/edb7217fddfbb70e899e
function flatten(listOfSamples) {
let n = 0;
for (let i = 0; i < listOfSamples.length; ++i) {
n += listOfSamples[i].length;
}
let ans = new Int16Array(n);
let offset = 0;
for (let i = 0; i < listOfSamples.length; ++i) {
ans.set(listOfSamples[i], offset);
offset += listOfSamples[i].length;
}
return ans;
}
// this function is copied/modified from
// https://gist.github.com/meziantou/edb7217fddfbb70e899e
function toWav(samples) {
let buf = new ArrayBuffer(44 + samples.length * 2);
var view = new DataView(buf);
// http://soundfile.sapp.org/doc/WaveFormat/
// F F I R
view.setUint32(0, 0x46464952, true); // chunkID
view.setUint32(4, 36 + samples.length * 2, true); // chunkSize
// E V A W
view.setUint32(8, 0x45564157, true); // format
//
// t m f
view.setUint32(12, 0x20746d66, true); // subchunk1ID
view.setUint32(16, 16, true); // subchunk1Size, 16 for PCM
view.setUint32(20, 1, true); // audioFormat, 1 for PCM
view.setUint16(22, 1, true); // numChannels: 1 channel
view.setUint32(24, expectedSampleRate, true); // sampleRate
view.setUint32(28, expectedSampleRate * 2, true); // byteRate
view.setUint16(32, 2, true); // blockAlign
view.setUint16(34, 16, true); // bitsPerSample
view.setUint32(36, 0x61746164, true); // Subchunk2ID
view.setUint32(40, samples.length * 2, true); // subchunk2Size
let offset = 44;
for (let i = 0; i < samples.length; ++i) {
view.setInt16(offset, samples[i], true);
offset += 2;
}
return new Blob([view], {type: 'audio/wav'});
}
// this function is copied from
// https://github.com/awslabs/aws-lex-browser-audio-capture/blob/master/lib/worker.js#L46
function downsampleBuffer(buffer, exportSampleRate) {
if (exportSampleRate === recordSampleRate) {
return buffer;
}
var sampleRateRatio = recordSampleRate / exportSampleRate;
var newLength = Math.round(buffer.length / sampleRateRatio);
var result = new Float32Array(newLength);
var offsetResult = 0;
var offsetBuffer = 0;
while (offsetResult < result.length) {
var nextOffsetBuffer = Math.round((offsetResult + 1) * sampleRateRatio);
var accum = 0, count = 0;
for (var i = offsetBuffer; i < nextOffsetBuffer && i < buffer.length; i++) {
accum += buffer[i];
count++;
}
result[offsetResult] = accum / count;
offsetResult++;
offsetBuffer = nextOffsetBuffer;
}
return result;
};