利用libmp3lame实现在Android上录音MP3文件示例-创新互联

之前项目需要实现MP3的录音,于是使用上了Lame这个库。这次做一个demo,使用AndroidStudio+Cmake+NDK进行开发。利用Android SDK提供的AndroidRecorder进行录音,得到PCM数据,并使用jni调用Lame这个C库将PCM数据转换为MP3文件。并使用MediaPlayer对录音的MP3文件进行播放。另外此次的按键是仿微信的语音按键,按下录音,松开结束,若中途上滑松开即取消

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效果如下:

利用libmp3lame实现在Android上录音MP3文件示例

项目地址: LameMp3ForAndroid_jb51.rar

一、主要类的介绍

  • Mp3Recorder—— 是负责调用AudioRecorder进行录音的类
  • SimpleLame——是负责将MP3Recorder录制出的PCM数据转换成MP3文件
  • DataEncodeThread——是负责执行PCM转MP3的线程
  • LameMp3Manager——是对Mp3Recorder的多一次封装,增加了取消后删除之前录制的数据的逻辑
  • MediaPlayerUtil——是对系统的MediaPlayer进行简单的封装,使其只需要三步就可以播放音频文件
  • MediaRecorderButton ——是一个仿微信录音按键的控件,按下录制,松开结束,录制时上滑则取消录制

二、录制的流程

  1. Mp3Recorder调用startRecording()开始录制并初始化DataEncoderThread线程,并定期将录制的PCM数据,传入DataEncoderThread中。
  2. 在DataEncoderThread里,SimpleLame将Mp3Recorder传入的PCM数据转换成MP3格式并写入文件,其中SimpleLame通过jni对Lame库进行调用
  3. Mp3Recorder调用stopRecording()停止录制,并通知DataEncoderThread线程录制结束,DataEncoderThread将剩余的数据转换完毕。

三、主要的实现代码

Mp3Recorder

public class Mp3Recorder {
  static {
    System.loadLibrary("lamemp3");
  }
  //默认采样率
  private static final int DEFAULT_SAMPLING_RATE = 44100;
  //转换周期,录音每满160帧,进行一次转换
  private static final int FRAME_COUNT = 160;
  //输出MP3的码率
  private static final int BIT_RATE = 32;
  //根据资料假定的大值。 实测时有时超过此值。
  private static final int MAX_VOLUME = 2000;
  private AudioRecord audioRecord = null;
  private int bufferSize;
  private File mp3File;
  private int mVolume;
  private short[] mPCMBuffer;
  private FileOutputStream os = null;
  private DataEncodeThread encodeThread;
  private int samplingRate;
  private int channelConfig;
  private PCMFormat audioFormat;
  private boolean isRecording = false;
  private ExecutorService executor = Executors.newFixedThreadPool(1);
  private OnFinishListener finishListener;

  public interface OnFinishListener {
    void onFinish(String mp3SavePath);
  }

  public Mp3Recorder(int samplingRate, int channelConfig, PCMFormat audioFormat) {
    this.samplingRate = samplingRate;
    this.channelConfig = channelConfig;
    this.audioFormat = audioFormat;
  }

  public Mp3Recorder() {
    this(DEFAULT_SAMPLING_RATE, AudioFormat.CHANNEL_IN_MONO, PCMFormat.PCM_16BIT);
  }


  public void startRecording(File mp3Save) throws IOException {
    if (isRecording) return;
    this.mp3File = mp3Save;
    if (audioRecord == null) {
      initAudioRecorder();
    }
    audioRecord.startRecording();
    Runnable runnable = new Runnable() {
      @Override
      public void run() {
        isRecording = true;
        //循环的从AudioRecord获取录音的PCM数据
        while (isRecording) {
          int readSize = audioRecord.read(mPCMBuffer, 0, bufferSize);
          if (readSize > 0) {
            //待转换的PCM数据放到转换线程中
            encodeThread.addChangeBuffer(mPCMBuffer,readSize);
            calculateRealVolume(mPCMBuffer, readSize);
          }
        }
        // 录音完毕,释放AudioRecord的资源
        try {
          audioRecord.stop();
          audioRecord.release();
          audioRecord = null;
          // 录音完毕,通知转换线程停止,并等待直到其转换完毕
          Message msg = Message.obtain(encodeThread.getHandler(), DataEncodeThread.PROCESS_STOP);
          msg.sendToTarget();
          encodeThread.join();
          //转换完毕后回调监听
          if(finishListener != null) finishListener.onFinish(mp3File.getPath());
        } catch (InterruptedException e) {
          e.printStackTrace();
        } finally {
          if (os != null) {
            try {
              os.close();
            } catch (IOException e) {
              e.printStackTrace();
            }
          }
        }
      }
    };
    executor.execute(runnable);
  }

  public void stopRecording() throws IOException {
    isRecording = false;
  }

  //计算音量大小
  private void calculateRealVolume(short[] buffer, int readSize) {
    double sum = 0;
    for (int i = 0; i < readSize; i++) {
      sum += buffer[i] * buffer[i];
    }
    if (readSize > 0) {
      double amplitude = sum / readSize;
      mVolume = (int) Math.sqrt(amplitude);
    }
  }

  public int getVolume(){
    if (mVolume >= MAX_VOLUME) {
      return MAX_VOLUME;
    }
    return mVolume;
  }

  public int getMaxVolume(){
    return MAX_VOLUME;
  }

  public void setFinishListener(OnFinishListener listener){
    this.finishListener = listener;
  }

  private void initAudioRecorder() throws IOException {
    int bytesPerFrame = audioFormat.getBytesPerFrame();
    //计算缓冲区的大小,使其是设置周期帧数的整数倍,方便循环
    int frameSize = AudioRecord.getMinBufferSize(samplingRate, channelConfig, audioFormat.getAudioFormat()) / bytesPerFrame;
    if (frameSize % FRAME_COUNT != 0) {
      frameSize = frameSize + (FRAME_COUNT - frameSize % FRAME_COUNT);
    }
    bufferSize = frameSize * bytesPerFrame;

    audioRecord = new AudioRecord(MediaRecorder.AudioSource.MIC, samplingRate, channelConfig, audioFormat.getAudioFormat(), bufferSize);
    mPCMBuffer = new short[bufferSize];
    SimpleLame.init(samplingRate, 1, samplingRate, BIT_RATE);
    os = new FileOutputStream(mp3File);
    // 创建转码的线程
    encodeThread = new DataEncodeThread(os, bufferSize);
    encodeThread.start();
    //给AudioRecord设置刷新监听,待录音帧数每次达到FRAME_COUNT,就通知转换线程转换一次数据
    audioRecord.setRecordPositionUpdateListener(encodeThread, encodeThread.getHandler());
    audioRecord.setPositionNotificationPeriod(FRAME_COUNT);
  }
}

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