I'm currently trying to write a simple audio visualizer (Non realtime), but am running into a very weird problem.

After about 515-545 iterations of ImageIO.write(), the program freezes; no exceptions, the program doesn't crash, just, nothing.

Before you read the code below, here's a quick rundown of it to make it a bit easier to understand:
1. Load data from program arguments.
2. Start ffmpeg with its input set to stdin.
3. In a loop; Continually render an image, then send it to ffmpeg with ImageIO.write().

Other info:
I've verified ImageIO.write() IS actually the problem by placing a print before and after the try/catch statement.
My first thought was a memory leak, but that doesn't seem to be the case, at least according to Runtime.getRuntime().freeMemory();
The iterations needed to freeze the program is inconsistent, though its always been in the range of 515-540.
Rendering a video with less frames works flawlessly.
My previous solution was to write all images to a folder, then run ffmpeg on them all at once. This worked fine on any number of frames, but used upwards of a gigabyte of storage for a fairly small test video, unacceptable for the small program I'm trying to create.

As a final note, I realize the code probably has a ton of optimization/general problems, I haven't had the time to try and get it to work well, as it isn't even fully working yet.
With that said, if you see any obvious problems, feel free to include them in your answer if you have the time, it'll certainly save me some.


public class Run {

    public static BufferedImage render = new BufferedImage(1920, 1080, BufferedImage.TYPE_INT_RGB);

    public static Graphics buffer = render.getGraphics();

    public static int frame = 0;

    public static double[] bins = new double[3200];
    public static double[] previousBins = new double[3200];

    public static File audio;

    public static BufferedImage background;

    public static OutputStream output;

    public static void main(String[] args) {
        try {
            String command = "cd /Users/admin/Desktop/render ; ffmpeg -r 60 -blocksize 150000 -i pipe:0 -i " + args[1].replaceAll(" ", "\\\\ ") + " final.mp4";


            ProcessBuilder processBuilder = new ProcessBuilder("bash", "-c", command);

            Process process = processBuilder.start();

            output = process.getOutputStream();
        } catch (IOException e) {

        try {
            background = ImageIO.read(new File(args[0]));
        } catch (IOException e) {
            System.out.println("File not found");

        audio = new File(args[1]);

        ByteArrayOutputStream out = new ByteArrayOutputStream();
        BufferedInputStream in = null;

        try { in = new BufferedInputStream(new FileInputStream(audio));
        } catch (FileNotFoundException e1) {

        try {

            int read;

            byte[] buff = new byte[3200];

            while ((read = in .read(buff)) > 0) {
                out.write(buff, 0, read);
        } catch (IOException e1) {

        byte[] audioBytes = out.toByteArray();

        System.out.println("Calculating length");

        int frames = 600;

        System.out.println("Rendering images");

        int[] data = new int[3200];

        int index = 0;

        while (frame < frames) {
            for (int i = 0; i < 3200; i++) {
                data[i] = (short)(audioBytes[index + 2] << 16 | audioBytes[index + 1] << 8 | audioBytes[index] & 0xff);

                index += 3;

            index -= 4800;

            fourier(data, bins);


            try {
                ImageIO.write(render, "jpg", output);
            } catch (IOException e) {


            if (frame % 20 == 0) {
                System.out.println(frame + "/" + frames + " frames completed");

        System.out.println("Render completed");

        System.out.println("Optimizing file size");

        System.out.println("Optimization complete");

        System.out.println("Program complete");


    public static void renderImage() {
        buffer.drawImage(background, 0, 0, null);

        for (int i = 0; i < 110; i++) {
            int height = (int)((bins[i] + previousBins[i]) / Short.MAX_VALUE);

            buffer.fillRect(15 * i + 20, 800 - height, 10, (int)(height * 1.2));

        System.arraycopy(bins, 0, previousBins, 0, 3200);

    public static void fourier(int[] inReal, double[] out) {
        for (int k = 0; k < inReal.length; k++) {
            double real = 0.0;
            double imaginary = 0.0;

            for (int t = 0; t < inReal.length; t++) {
                real += inReal[t] * Math.cos(2 * Math.PI * t * k / inReal.length);
                imaginary -= inReal[t] * Math.sin(2 * Math.PI * t * k / inReal.length);

            out[k] = Math.sqrt(Math.pow(real, 2) + Math.pow(imaginary, 2));

  • You could start by putting a BufferOutputStream above your BAOS, this would reduce the load on the file system. I am pretty sure your are overloading the OS with to much information to deal with (espacially if a splitted solution uses 1GB of data). To much small package to write takes times if you don't send those in a buffer. Now, this should not freeze the application, just slow it down – AxelH Oct 14 at 5:38
  • Maybe, although for context, that 1 gb was from the thousands of images produced, each one was only around 120 kb, and I'm only sending ~3-4 images a second. The final video was only a couple mb. Sorry if I worded it weirdly. I'll keep that in mind though, thanks. – the4naves Oct 14 at 5:52
  • @the4naves get a thread dump with jstack or kill -3 and you'll see where the threads are stuck. – Kayaman Oct 14 at 5:58
  • 1
    Sorry, previous comment deleted as it didn't apply... To me it seems the culprit really is ffmpeg. You pipe your ImageIO output into ffmpeg. Now if ffmpeg stops reading, and the buffer is full, write will block and wait for ffmpeg to consume the data that has already been written. What happens if you change ffmpeg blocksize? Still same number of frames? Try to write to a tempfile instead, then look what ffmpeg does when you pipe that file's content on the command line. – Axel Oct 14 at 7:21
  • 1
    @the4naves I actually meant a Java debugger, most IDE's come with a java debugger, and it allows you to see the actual java code where it hangs, as opposed to a system stack trace, that doesn't show much of the internal java code. I should have been more clear in my first comment – Ferrybig Oct 14 at 19:25

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