html5
HTML5录音实践总结(Preact)
发布时间:2022-04-13 发布网站:脚本宝典
脚本宝典收集整理的这篇文章主要介绍了HTML5录音实践总结(Preact),脚本宝典觉得挺不错的,现在分享给大家,也给大家做个参考。
获取 PCM 数据
处理 PCM 数据
Float32 转 Int16
ArrayBuffer 转 Base64
PCM 文件播放
重采样
PCM 转 MP3
PCM 转 WAV
短时能量计算
Web Worker优化性能
音频存储(IndexedDB)
WebView 开启 WebrTC
获取 PCM 数据
查看 DEMO
https://github.com/deepkolos/pc-pcm-wave
样例代码:
const mediaStream = await window.navigator.mediaDevices.getUserMedia({ audio: { // sampleRate: 44100, // 采样率 不生效需要手动重采样 channelCount: 1, // 声道 // echoCancellation: true, // noiseSupPression: true, // 降噪 实测效果不错 }, }) const audioContext = new window.AudioContext() const inputSampleRate = audioContext.sampleRate const mediaNode = audioContext.createMediaStreamSource(mediaStream) if (!audioContext.createScriptPRocessor) { audioContext.createScriptProcessor = audioContext.createJavaScriptNode } // 创建一个jsNode const jsNode = audioContext.createScriptProcessor(4096, 1, 1) jsNode.connect(audioContext.destination) jsNode.onaudioprocess = (e) => { // e.inputBuffer.getChannelData(0) (left) // 双通道通过e.inputBuffer.getChannelData(1)获取 (right) } mediaNode.connect(jsNode)
简要流程如下:
start=>start: 开始 getUserMedia=>operation: 获取MediaStream audioContext=>oPEration: 创建AudioContext scriptNode=>operation: 创建scriptNode并关联AudioContext onaudioprocess=>operation: 设置onaudioprocess并处理数据 end=>end: 结束 start->getUserMedia->audioContext->scriptNode->onaudioprocess->end
停止录制只需要把 audioContext 挂在的 node 卸载即可,然后把存储的每一帧数据合并即可产出 PCM 数据
jsNode.disconnect() mediaNode.disconnect() jsNode.onaudioprocess = null
PCM 数据处理
通过 WebRTC 获取的 PCM 数据格式是 Float32 的, 如果是双通道录音的话, 还需要增加合并通道
const leftDataList = [];
const rightDataList = [];
function onAudioProcess(event) {
// 一帧的音频PCM数据
let audioBuffer = event.inputBuffer;
leftDataList.push(audioBuffer.getChannelData(0).slice(0));
rightDataList.push(audioBuffer.getChannelData(1).slice(0));
}
// 交叉合并左右声道的数据
function interleaveLeftAndRight(left, right) {
let totalLength = left.length + right.length;
let data = new Float32Array(totalLength);
for (let i = 0; i < left.length; i++) {
let k = i * 2;
data[k] = left[i];
data[k + 1] = right[i];
}
return data;
}
Float32 转 Int16
const float32 = new Float32Array(1) const int16 = Int16Array.From( float32.map(x => (x > 0 ? x * 0x7fff : x * 0x8000)), )
arrayBuffer 转 Base64
注意: 在浏览器上有个 BToa() 函数也是可以转换为 Base64 但是输入参数必须为字符串, 如果传递 buffer 参数会先被 toString() 然后再 Base64 , 使用 ffplay 播放反序列化的 Base64 , 会比较刺耳
使用 base64-arraybuffer 即可完成
import { encode } from 'base64-arraybuffer'
const float32 = new Float32Array(1)
const int16 = Int16Array.from(
float32.map(x => (x > 0 ? x * 0x7fff : x * 0x8000)),
)
console.LOG(encode(int16.buffer))
验证 Base64 是否正确, 可以在 node 下把产出的 Base64 转换为 Int16 的 PCM 文件, 然后使用 FFPlay 播放, 看看音频是否正常播放
PCM 文件播放
# 单通道 采样率:16000 Int16 ffplay -f s16le -ar 16k -ac 1 test.pcm # 双通道 采样率:48000 Float32 ffplay -f f32le -ar 48000 -ac 2 test.pcm
重采样/调整采样率
虽然 getUserMedia 参数可设置采样率, 但是在最新Chrome也不生效, 所以需要手动做个重采样
const mediaStream = awaIT window.navigator.mediaDevices.getUserMedia({ audio: { // sampleRate: 44100, // 采样率 设置不生效 channelCount: 1, // 声道 // echoCancellation: true, // 减低回音 // noiseSuppression: true, // 降噪, 实测效果不错 }, })
使用 wave-resampler 即可完成
import { resample } from 'wave-resampler'
const inputSampleRate = 44100
const outputSampleRate = 16000
const resampledBuffers = resample(
// 需要onAudioProcess每一帧的buffer合并后的数组
mergeArray(audioBuffers),
inputSampleRate,
outputSampleRate,
)
PCM 转 MP3
import { Mp3Encoder } from 'lamejs'
let mp3buf
const mp3Data = []
const sampleBlockSize = 576 * 10 // 工作缓存区, 576的倍数
const mp3Encoder = new Mp3Encoder(1, outputSampleRate, kbps)
const samples = float32ToInt16(
audioBuffers,
inputSampleRate,
outputSampleRate,
)
let remaining = samples.length
for (let i = 0; remaining >= 0; i += sampleBlockSize) {
const left = samples.subarray(i, i + sampleBlockSize)
mp3buf = mp3Encoder.encodeBuffer(left)
mp3Data.push(new Int8Array(mp3buf))
remaining -= sampleBlockSize
}
mp3Data.push(new Int8Array(mp3Encoder.flush()))
console.log(mp3Data)
// 工具函数
function float32ToInt16(audioBuffers, inputSampleRate, outputSampleRate) {
const float32 = resample(
// 需要onAudioProcess每一帧的buffer合并后的数组
mergeArray(audioBuffers),
inputSampleRate,
outputSampleRate,
)
const int16 = Int16Array.from(
float32.map(x => (x > 0 ? x * 0x7fff : x * 0x8000)),
)
return int16
}
使用 lamejs 即可, 但是体积较大(160+KB), 如果没有存储需求可使用 WAV 格式
> ls -alh -rwxrwxrwx 1 root root 95K 4月 22 12:45 12s.mp3* -rwxrwxrwx 1 root root 1.1M 4月 22 12:44 12s.wav* -rwxrwxrwx 1 root root 235K 4月 22 12:41 30s.mp3* -rwxrwxrwx 1 root root 2.6M 4月 22 12:40 30s.wav* -rwxrwxrwx 1 root root 63K 4月 22 12:49 8s.mp3* -rwxrwxrwx 1 root root 689K 4月 22 12:48 8s.wav*
PCM 转 WAV
function mergeArray(list) {
const length = list.length * list[0].length
const data = new Float32Array(length)
let offset = 0
for (let i = 0; i < list.length; i++) {
data.set(list[i], offset)
offset += list[i].length
}
return data
}
function writeUTFBytes(view, offset, string) {
VAR lng = string.length
for (let i = 0; i < lng; i++) {
view.setUint8(offset + i, string.charCodeAt(i))
}
}
function createWavbuffer(audioData, sampleRate = 44100, channels = 1) {
const WAV_HEAD_SIZE = 44
const buffer = new ArrayBuffer(audioData.length * 2 + WAV_HEAD_SIZE)
// 需要用一个view来操控buffer
const view = new DataView(buffer)
// 写入wav头部信息
// RIFF chunk descriptor/identifier
writeUTFBytes(view, 0, 'RIFF')
// RIFF chunk length
view.setUint32(4, 44 + audioData.length * 2, true)
// RIFF type
writeUTFBytes(view, 8, 'WAVE')
// format chunk identifier
// FMT sub-chunk
writeUTFBytes(view, 12, 'fmt')
// format chunk length
view.setUint32(16, 16, true)
// sample format (raw)
view.setUint16(20, 1, true)
// stereo (2 channels)
view.setUint16(22, channels, true)
// sample rate
view.setUint32(24, sampleRate, true)
// byte rate (sample rate * block align)
view.setUint32(28, sampleRate * 2, true)
// block align (channel count * bytes per sample)
view.setUint16(32, channels * 2, true)
// bits per sample
view.setUint16(34, 16, true)
// data sub-chunk
// data chunk identifier
writeUTFBytes(view, 36, 'data')
// data chunk length
view.setUint32(40, audioData.length * 2, true)
// 写入PCM数据
let index = 44
const volume = 1
const { length } = audioData
for (let i = 0; i < length; i++) {
view.setInt16(index, audioData[i] * (0x7fff * volume), true)
index += 2
}
return buffer
}
// 需要onAudioProcess每一帧的buffer合并后的数组
createWavBuffer(mergeArray(audioBuffers))
WAV 基本上是 PCM 加上一些音频信息
简单的短时能量计算
function shortTimeEnergy(audioData) {
let sum = 0
const energy = []
const { length } = audioData
for (let i = 0; i < length; i++) {
sum += audioData[i] ** 2
if ((i + 1) % 256 === 0) {
energy.push(sum)
sum = 0
} else if (i === length - 1) {
energy.push(sum)
}
}
return energy
}
由于计算结果有会因设备的录音增益差异较大, 计算出数据也较大, 所以使用比值简单区分人声和噪音
查看 DEMO
const NoiseVoiceWatershedWave = 2.3 const energy = shortTimeEnergy(e.inputBuffer.getChannelData(0).slice(0)) const avg = energy.reduce((a, b) => a + b) / energy.length const nextstate = Math.max(...energy) / avg > NoiseVoiceWatershedWave ? 'voice' : 'noise'
Web Worker 优化性能
音频数据数据量较大, 所以可以使用 Web Worker 进行优化, 不卡 UI 线程
在 Webpack 项目里 Web Worker 比较简单, 安装 worker-loader 即可
preact.config.js
export default (config, env, helpers) => { config.module.rules.push({ test: /\.worker\.js$/, use: { loader: 'worker-loader', options: { inline: true } }, }) }
recorder.worker.js
self.addEventListener('message', event => {
console.log(event.data)
// 转MP3/转Base64/转WAV等等
const output = ''
self.postMessage(output)
}
使用 Worker
async function toMP3(audioBuffers, inputSampleRate, outputSampleRate = 16000) {
const { default: Worker } = await import('./recorder.worker')
const worker = new Worker()
// 简单使用, 项目可以在recorder实例化的时候创建worker实例, 有并法需求可多个实例
return new Promise(resolve => {
worker.postMessage({
audioBuffers: audioBuffers,
inputSampleRate: inputSampleRate,
outputSampleRate: outputSampleRate,
type: 'mp3',
})
worker.onmessage = event => resolve(event.data)
})
}
音频的存储
浏览器持久化储存的地方有 LocalStorage 和 IndexedDB , 其中 LocalStorage 较为常用, 但是只能储存字符串, 而 IndexedDB 可直接储存 Blob , 所以优先选择 IndexedDB ,使用 LocalStorage 则需要转 Base64 体积将会更大
所以为了避免占用用户太多空间, 所以选择MP3格式进行存储
> ls -alh -rwxrwxrwx 1 root root 95K 4月 22 12:45 12s.mp3* -rwxrwxrwx 1 root root 1.1M 4月 22 12:44 12s.wav* -rwxrwxrwx 1 root root 235K 4月 22 12:41 30s.mp3* -rwxrwxrwx 1 root root 2.6M 4月 22 12:40 30s.wav* -rwxrwxrwx 1 root root 63K 4月 22 12:49 8s.mp3* -rwxrwxrwx 1 root root 689K 4月 22 12:48 8s.wav*
IndexedDB 简单封装如下, 熟悉后台的同学可以找个 ORM 库方便数据读写
const indexedDB = window.indexedDB || window.webkitIndexedDB || window.mozIndexedDB || window.OIndexedDB || window.msIndexedDB const IDBTransaction = window.IDBTransaction || window.webkitIDBTransaction || window.OIDBTransaction || window.msIDBTransaction const readWriteMode = typeof IDBTransaction.READ_WRITE === 'undefined' ? 'readwrite' : IDBTransaction.READ_WRITE const dbVersion = 1 const StoreDefault = 'mp3' let dbLink function initDB(store) { return new Promise((resolve, reject) => { if (dbLink) resolve(dbLink) // Create/open database const request = indexedDB.open('audio', dbVersion) request.onsuccess = event => { const db = request.result db.onerror = event => { reject(event) } if (db.version === dbVersion) resolve(db) } request.onerror = event => { reject(event) } // For Future use. currently only in latest Firefox versions request.onupgradeneeded = event => { dbLink = event.target.result const { transaction } = event.target if (!dbLink.objectStorenames.contains(store)) { dbLink.createObjectStore(store) } transaction.oncomplete = event => { // Now store is available to be populated resolve(dbLink) } } }) } export const writeiDB = async (name, blob, store = storeDefault) => { const db = await initDB(store) const transaction = db.transaction([store], readWriteMode) const objStore = transaction.objectStore(store) return new Promise((resolve, reject) => { const request = objStore.put(blob, name) request.onsuccess = event => resolve(event) request.onerror = event => reject(event) transaction.COMmit && transaction.commit() }) } export const readIDB = async (name, store = storeDefault) => { const db = await initDB(store) const transaction = db.transaction([store], readWriteMode) const objStore = transaction.objectStore(store) return new Promise((resolve, reject) => { const request = objStore.get(name) request.onsuccess = event => resolve(event.target.result) request.onerror = event => reject(event) transaction.commit && transaction.commit() }) } export const clearIDB = async (store = storeDefault) => { const db = await initDB(store) const transaction = db.transaction([store], readWriteMode) const objStore = transaction.objectStore(store) return new Promise((resolve, reject) => { const request = objStore.clear() request.onsuccess = event => resolve(event) request.onerror = event => reject(event) transaction.commit && transaction.commit() }) }
WebView 开启 WebRTC
webView.setWebChromeClient(new WebChromeClient(){
@TargetApi(Build.VERSION_CODES.LOLLIPOP)
@override
public void onPermissionRequest(final PermissionRequest request) {
request.grant(request.getResources());
}
});
到此这篇关于HTML5录音实践总结(Preact)的文章就介绍到这了,更多相关html5录音内容请搜索脚本宝典以前的文章或继续浏览下面的相关文章,希望大家以后多多支持脚本宝典!
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