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I'm looking into writing a audio syntesizer in Java, and was wondering if anybody has any advice or good resources for writing such a program. I'm looking for info on generating raw sound waves, how to output them into a usable form (playing over speakers), as well as general theory on the topic. Thanks guys.

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up vote 5 down vote accepted
  1. This problem is basically about mapping functions to arrays of numbers. A language that supports first-class functions would come in really handy here.

  2. Check out and for some Java-related info.

  3. If you don't know the basic concepts of encoding sound data, then read

  4. The canonical WAVE format is very simple, see A header (first 44 bytes) + the wave-data. You don't need any library to implement that.

In C/C++, the corresponding data structure would look something like this:

typedef struct _WAVstruct
    char headertag[4];
    unsigned int remnantlength;
    char fileid[4];

    char fmtchunktag[4];
    unsigned int fmtlength;
    unsigned short fmttag;
    unsigned short channels;
    unsigned int samplerate;
    unsigned int bypse;
    unsigned short ba;
    unsigned short bipsa;

    char datatag[4];
    unsigned int datalength;

    void* data; //<--- that's where the raw sound-data goes
}* WAVstruct;

I'm not sure about Java. I guess you'll have to substitute "struct" with "class" and "void* data" with "char[] data" or "short[] data" or "int[] data", corresponding to the number of bits per sample, as defined in the field bipsa.

To fill it with data, you would use something like that in C/C++:

int data2WAVstruct(unsigned short channels, unsigned short bipsa, unsigned int samplerate, unsigned int datalength, void* data, WAVstruct result)
    result->headertag[0] = 'R';
    result->headertag[1] = 'I';
    result->headertag[2] = 'F';
    result->headertag[3] = 'F';
    result->remnantlength = 44 + datalength - 8;
    result->fileid[0] = 'W';
    result->fileid[1] = 'A';
    result->fileid[2] = 'V';
    result->fileid[3] = 'E';

    result->fmtchunktag[0] = 'f';
    result->fmtchunktag[1] = 'm'; 
    result->fmtchunktag[2] = 't';
    result->fmtchunktag[3] = ' ';
    result->fmtlength = 0x00000010;
    result->fmttag = 1;
    result->channels = channels;
    result->samplerate = samplerate;
    result->bipsa = bipsa;
    result->ba = channels*bipsa / 8;
    result->bypse = samplerate*result->ba;

    result->datatag[0] = 'd';
    result->datatag[1] = 'a';
    result->datatag[2] = 't';
    result->datatag[3] = 'a';
    result->datalength = datalength;

    result->data = data; // <--- that's were the data comes in

    return 0; // an error code, not implemented, yet ...; in Java: return result

Again, I'm not sure about Java but the conversion should be straightforward if you convert the void-pointer to an array corresponding to the bitrate.

Then simply write the entire structure to a file to get a playable wave file.

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Check out Frinika. It's a full-featured music workstation implemented in Java (open source). Using the API, you can run midi events through the synthesizer, read the raw sound output, and write it to a WAV file (see source code link below).

Additional information:

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While studying for my degree, my dissertation project was the creation of a Java based modular synthesizer, and the University at which I studied saw fit to make my report publicly available:

A Software Based Modular Synthesiser in Java

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very useful paper, specially for the basics. – leolobato Jan 29 '10 at 12:56

I dont't know if that helps, but if you can use MIDI for anything, you should check out JFuge.

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That's JFugue at – David Koelle Oct 7 '08 at 19:26
MIDI is like flint-knapping: it deserves respect because of its service to humanity in the distant past, but it's not something anyone should be using seriously today. – MusiGenesis Jun 5 '09 at 14:10
@MusiGenesis - Are you serious? LOL – Krakkos Jan 26 '11 at 13:57

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