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My project is 'Speech Recognition of Azeri speech'. I have to write a program that converts wav files to byte array.

How to convert audio file to byte[]?

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3 Answers 3

Write this file into ByteArrayOutputStream

ByteArrayOutputStream out = new ByteArrayOutputStream();
BufferedInputStream in = new BufferedInputStream(new FileInputStream(WAV_FILE));

int read;
byte[] buff = new byte[1024];
while ((read = in.read(buff)) > 0)
{
    out.write(buff, 0, read);
}
out.flush();
byte[] audioBytes = out.toByteArray();
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This is true because a WAV file is essentially an array of bytes. Not all audio formats are simple byte streams. You couldn't do this with an MP3 file, for example. –  David Koelle May 1 '12 at 12:37
1  
Well, wav has segments and headers and the like interspersed with the audio data, so David gets a slight technical disagreement from me on this statement. Perhaps it would be more accurate to point out that any format supported by Java (or by a decent library for a given format, including mp3) will convert the given file to a stream of bytes of raw PCM data. –  Phil Freihofner May 2 '12 at 20:13

Basically as described by the snippet in the first answer, but instead of the BufferedInputStream use AudioSystem.getAudioInputStream(File) to get the InputStream.

Using the audio stream as obtained from AudioSystem will ensure that the headers are stripped, and the input file decode to a byte[] that represents the actual sound frames/samples - which can then be used for FFT etc.

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2  
Or perhaps .getAudioInputStream(URL) if the InputStream raises the notorious mark/reset exception. –  Phil Freihofner May 2 '12 at 20:16
import java.io.*;
import java.nio.ByteBuffer;
import java.nio.ByteOrder;
import java.util.LinkedHashMap;
import javax.sound.sampled.*;

/**
 * This class reads a .wav file and converts it to a bunch of byte arrays.
 * 
 * The info represented by these byte arrays is then printed out.
 * 
 * An example of playing these byte arrays with the speakers is used.
 * 
 * It also converts the byte arrays to a .wav file.
 * 
 * An extension of this concept can record from a microphone.
 * In this case, some values like sampling rate would need to be assumed.
 * 
 * See https://ccrma.stanford.edu/courses/422/projects/WaveFormat/ for .wav file spec
 * 
 * @author sizu
 */
public class WavFileHelper {    

    public static void main(String[] args) {
        final String NEWLINE = "\n";
        int recordingSampleRate = 22050;
        short recordingBitsPerSample = 16;
        short recordingNumChannels = 2;
        String inputFile = "/input.wav"; // Place the wav file in the top level directory, ie S:/input.wav
        String outputFile = "/output.wav";
        String recordedFile = "/capture.wav";

        System.out.println("START");
        try {
            WavData wavInputData = new WavData();
            WavData wavRecordData = new WavData();
            wavRecordData.put(WaveSection.SAMPLE_RATE, recordingSampleRate);
            wavRecordData.put(WaveSection.BITS_PER_SAMPLE, recordingBitsPerSample);
            wavRecordData.put(WaveSection.NUM_CHANNELS, recordingNumChannels);

            System.out.println(NEWLINE+"CONVERT WAV FILE TO BYTE ARRAY");
            wavInputData.read(inputFile);

            System.out.println(NEWLINE+"CONVERT BYTE ARRAY TO WAV FILE");
            wavInputData.write(outputFile);

            System.out.println(NEWLINE+"DISPLAY BYTE ARRAY INFORMATION FOR INPUT FILE");
            wavInputData.printByteInfo();

            System.out.println(NEWLINE+"START RECORDING - You can connect the microphone to the speakers");
            WavAudioRecorder recorder = new WavFileHelper.WavAudioRecorder(wavRecordData);
            recorder.startRecording();

            System.out.println(NEWLINE+"PLAY BYTE ARRAY (THIS WILL BE RECORDED)");
            WavAudioPlayer player = new WavFileHelper.WavAudioPlayer(wavInputData);
            player.playAudio();

            System.out.println(NEWLINE+"STOP RECORDING FOR RECORDING");
            recorder.stopRecording();

            System.out.println(NEWLINE+"DISPLAY BYTE ARRAY INFORMATION");
            wavRecordData.printByteInfo();

            System.out.println(NEWLINE+"SAVE RECORDING IN WAV FILE");
            wavRecordData.write(recordedFile);

        } catch (Exception ex) {
            ex.printStackTrace();
        }
        System.out.println("FINISH");
    }

    public static enum WaveSection {
        // 12 Bytes
        CHUNK_ID(4, ByteOrder.BIG_ENDIAN),
        CHUNK_SIZE(4, ByteOrder.LITTLE_ENDIAN),
        FORMAT(4, ByteOrder.BIG_ENDIAN),

        // 24 Bytes
        SUBCHUNK1_ID(4, ByteOrder.BIG_ENDIAN),
        SUBCHUNK1_SIZE(4, ByteOrder.LITTLE_ENDIAN),
        AUDIO_FORMAT(2, ByteOrder.LITTLE_ENDIAN),
        NUM_CHANNELS(2, ByteOrder.LITTLE_ENDIAN),
        SAMPLE_RATE(4, ByteOrder.LITTLE_ENDIAN),
        BYTE_RATE(4, ByteOrder.LITTLE_ENDIAN),
        BLOCK_ALIGN(2, ByteOrder.LITTLE_ENDIAN),
        BITS_PER_SAMPLE(2, ByteOrder.LITTLE_ENDIAN),

        // 8 Bytes
        SUBCHUNK2_ID(4, ByteOrder.BIG_ENDIAN),
        SUBCHUNK2_SIZE(4, ByteOrder.LITTLE_ENDIAN),
        DATA(0, ByteOrder.LITTLE_ENDIAN),
        ;

        private Integer numBytes;
        private ByteOrder endian;
        WaveSection(Integer numBytes, ByteOrder endian){
            this.numBytes = numBytes;
            this.endian = endian;
        }
    }

    public static class WavData extends LinkedHashMap<WaveSection, byte[]>{
        static int HEADER_SIZE = 44; // There are 44 bits before the data section
        static int DEFAULT_SUBCHUNK1_SIZE = 16;
        static short DEFAULT_AUDIO_FORMAT = 1;
        static short DEFAULT_BLOCK_ALIGN = 4;
        static String DEFAULT_CHUNK_ID = "RIFF";
        static String DEFAULT_FORMAT = "WAVE";
        static String DEFAULT_SUBCHUNK1_ID = "fmt ";
        static String DEFAULT_SUBCHUNK2_ID = "data";

        public WavData(){
            this.put(WaveSection.CHUNK_ID, DEFAULT_CHUNK_ID);
            this.put(WaveSection.FORMAT, DEFAULT_FORMAT);
            this.put(WaveSection.SUBCHUNK1_ID, DEFAULT_SUBCHUNK1_ID);
            this.put(WaveSection.SUBCHUNK1_SIZE, DEFAULT_SUBCHUNK1_SIZE);
            this.put(WaveSection.AUDIO_FORMAT, DEFAULT_AUDIO_FORMAT);
            this.put(WaveSection.BLOCK_ALIGN, DEFAULT_BLOCK_ALIGN);
            this.put(WaveSection.SUBCHUNK2_ID, DEFAULT_SUBCHUNK2_ID);

            this.put(WaveSection.CHUNK_SIZE, 0);
            this.put(WaveSection.SUBCHUNK2_SIZE, 0);
            this.put(WaveSection.BYTE_RATE, 0);
        }

        public void put(WaveSection waveSection, String value){
            byte[] bytes = value.getBytes();
            this.put(waveSection, bytes);
        }

        public void put(WaveSection waveSection, int value) {
            byte[] bytes = ByteBuffer.allocate(4).order(ByteOrder.LITTLE_ENDIAN).putInt(value).array();
            this.put(waveSection, bytes);
        }

        public void put(WaveSection waveSection, short value) {
            byte[] bytes = ByteBuffer.allocate(2).order(ByteOrder.LITTLE_ENDIAN).putShort(value).array();
            this.put(waveSection, bytes);
        }

        public byte[] getBytes(WaveSection waveSection) {
            return this.get(waveSection);
        }

        public String getString(WaveSection waveSection) {
            byte[] bytes = this.get(waveSection);
            return new String(bytes);
        }

        public int getInt(WaveSection waveSection) {
            byte[] bytes = this.get(waveSection);
            return ByteBuffer.wrap(bytes).order(ByteOrder.LITTLE_ENDIAN).getInt();
        }

        public short getShort(WaveSection waveSection) {
            byte[] bytes = this.get(waveSection);
            return ByteBuffer.wrap(bytes).order(ByteOrder.LITTLE_ENDIAN).getShort();
        }

        public void printByteInfo() {
            for (WaveSection waveSection : WaveSection.values()) {
                if (waveSection.numBytes == 4
                        && waveSection.endian == ByteOrder.BIG_ENDIAN) {
                    System.out.println("SECTION:" + waveSection + ":STRING:"
                            + this.getString(waveSection));
                } else if (waveSection.numBytes == 4
                        && waveSection.endian == ByteOrder.LITTLE_ENDIAN) {
                    System.out.println("SECTION:" + waveSection + ":INTEGER:"
                            + this.getInt(waveSection));
                } else if (waveSection.numBytes == 2
                        && waveSection.endian == ByteOrder.LITTLE_ENDIAN) {
                    System.out.println("SECTION:" + waveSection + ":SHORT:"
                            + this.getShort(waveSection));
                } else {
                    // Data Section
                }
            }
        }

        public void read(String inputPath) throws Exception {
            // Analyze redundant info
            int dataSize = (int) new File(inputPath).length() - HEADER_SIZE;
            WaveSection.DATA.numBytes  = dataSize; // Can't have two threads using this at the same time

            // Read from File
            DataInputStream inFile = new DataInputStream(new FileInputStream(inputPath));

            for (WaveSection waveSection : WaveSection.values()) {
                byte[] readBytes = new byte[waveSection.numBytes];
                for (int i = 0; i < waveSection.numBytes; i++) {
                    readBytes[i] = inFile.readByte();
                }
                this.put(waveSection, readBytes);
            }

            inFile.close();
        }

        public void write(String outputPath) throws Exception {
            // Analyze redundant info
            int dataSize = this.get(WaveSection.DATA).length;
            this.put(WaveSection.CHUNK_SIZE, dataSize+36);
            this.put(WaveSection.SUBCHUNK2_SIZE, dataSize);

            int byteRate = this.getInt(WaveSection.SAMPLE_RATE)*this.getShort(WaveSection.BLOCK_ALIGN);
            this.put(WaveSection.BYTE_RATE, byteRate);

            // Write to File
            DataOutputStream dataOutputStream = new DataOutputStream(new FileOutputStream(outputPath));

            for (WaveSection waveSection : WaveSection.values()) {
                dataOutputStream.write(this.getBytes(waveSection));
            }

            dataOutputStream.close();
        }

        public AudioFormat createAudioFormat() {
            boolean audioSignedSamples = true; // Samples are signed
            boolean audioBigEndian = false;
            float sampleRate = (float) this.getInt(WaveSection.SAMPLE_RATE);
            int bitsPerSample = (int) this.getShort(WaveSection.BITS_PER_SAMPLE);
            int numChannels = (int) this.getShort(WaveSection.NUM_CHANNELS);
            return new AudioFormat(sampleRate, bitsPerSample,
                    numChannels, audioSignedSamples, audioBigEndian);
        }
    }

    public static class WavAudioPlayer {
        WavData waveData = new WavData();

        public WavAudioPlayer(WavData waveData){
            this.waveData = waveData;
        }

        public void playAudio() throws Exception {
            byte[] data = waveData.getBytes(WaveSection.DATA);

            // Create an audio input stream from byte array
            AudioFormat audioFormat = waveData.createAudioFormat();
            InputStream byteArrayInputStream = new ByteArrayInputStream(data);
            AudioInputStream audioInputStream = new AudioInputStream(byteArrayInputStream,
                    audioFormat, data.length / audioFormat.getFrameSize());

            // Write audio input stream to speaker source data line
            DataLine.Info dataLineInfo = new DataLine.Info(SourceDataLine.class,
                    audioFormat);
            SourceDataLine sourceDataLine = (SourceDataLine) AudioSystem.getLine(dataLineInfo);
            sourceDataLine.open(audioFormat);
            sourceDataLine.start();

            // Loop through input stream to write to source data line
            byte[] tempBuffer = new byte[10000];
            int cnt;
            while ((cnt = audioInputStream.read(tempBuffer, 0, tempBuffer.length)) != -1) {
                sourceDataLine.write(tempBuffer, 0, cnt);
            }

            // Cleanup
            sourceDataLine.drain();
            sourceDataLine.close();
            byteArrayInputStream.close();
        }
    }

    public static class WavAudioRecorder implements Runnable {
        WavData waveData = new WavData();
        boolean recording = true;
        Thread runningThread;
        ByteArrayOutputStream byteArrayOutputStream;

        public WavAudioRecorder(WavData waveData){
            this.waveData = waveData;
        }

        public void startRecording(){
            this.recording = true;
            this.runningThread = new Thread(this);
            runningThread.start();  
        }

        public WavData stopRecording() throws Exception{
            this.recording = false;
            runningThread.stop();

            waveData.put(WaveSection.DATA, byteArrayOutputStream.toByteArray());

            return waveData;
        }

        public void run() {
            try {
                // Create an audio output stream for byte array
                byteArrayOutputStream  = new ByteArrayOutputStream();

                // Write audio input stream to speaker source data line
                AudioFormat audioFormat = waveData.createAudioFormat();
                DataLine.Info info = new DataLine.Info(TargetDataLine.class, audioFormat);
                TargetDataLine targetDataLine = (TargetDataLine) AudioSystem.getLine(info);
                targetDataLine.open(audioFormat);
                targetDataLine.start();

                // Loop through target data line to write to output stream
                int numBytesRead;
                byte[] data = new byte[targetDataLine.getBufferSize() / 5];
                while(recording) {
                    numBytesRead =  targetDataLine.read(data, 0, data.length);
                    byteArrayOutputStream.write(data, 0, numBytesRead);
                }

                // Cleanup
                targetDataLine.stop();
                targetDataLine.close();
                byteArrayOutputStream.close();
            } catch (Exception ex) {
                ex.printStackTrace();
            }
        }
    }
}
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